Complete Guide to Digital Infrared Photography

Acknowledgment .................................................................. 5

Infrared Filters ........................................................................ 46 How Do Filters Work? ...................................................... 46

Foreword .................................................................................. 8

Filters for IR Photography ................................................ 48 Semi-Famous Filter Facts .................................................. 48

Introduction ............................................................................ 12

Cleaning Filters .................................................................. 49

Welcome to the World of Infrared .................................. 13

Analyzing Transmission Rates and Filter Numbers .. .50

What is Infrared Light? .................................................... 14

Flare ...................................................................................... 52

A Note about Infrared Film .............................................. 17

Filter Choices ...................................................................... 53

What's in This Book? ........................................................ 17

Standing on Three Legs ............................................ 55 Different Filters Give Different Effects .................. 56

Getting the Image on Your Sensor ................................ 18 Is Your Digital Camera IR Sensitive?

18

Test Your Camera for IR Capability ........................ 21

Premium IR Filters .................................................... 56 Using Filters with Non-SLR Digital Cameras .. . .58 Profiles in Infrared: Chip Talbert .................................... 60

Cleanliness is Next to Godliness .................................... 21 IR Conversions .................................................................. 22 Recording and Processing JPEG Images for IR ............ 24

Creating Digital IR Images .............................................. 62

Recording and Processing RAW Images for IR ............ 26

Imaging Sensors ................................................................ 62

Profiles in Infrared: Brody Dezember ............................ 28

Sensor Choices .................................................................... 63 Recording the Image .......................................................... 64

Focusing and Exposing in IR ............................................ 30 Focusing Differences .......................................................... 31 Focusing with Digital SLR Cameras ...................... 32 Hyperfocal Distance .................................................. 32

Tweaking Black-and-White Images in ImageProcessing ............................................................................ 64 From Digital Color IR to Digital B&W IR ...................... 66 Mixing Color Channel ...................................................... 68

Depth of Field Scale .................................................. 32

Plug-ins: Powerful Black-and-White Conversion Tools ................................................................ 70

IR-Converted Digital SLRs ...................................... 35

Profiles in Infrared: Carl Schofield .................................. 74

IR-Converted Advanced Compact Zoom Digital Cameras ........................................................ 35 Focusing with Non-SLR Digital Cameras ............ 35

Digital IR Image Processing ............................................ 76

Exposing for Infrared Wavelengths ................................ 36

Scanning: Converting Your Existing IR Film Library ................................................................................ 78

Bracketing .................................................................. 36

The Layers Function .......................................................... 80

ISO Settings .............................................................. 36

The Layers Palette .................................................... 80

Manual Exposure Mode .......................................... 36

Adjustment Layers .................................................... 81

The Proper Exposure ................................................ 38 Seeing in Infrared

Creating Your Own Adjustment Layers ................ 82

40

Popular IR Image Effects .................................................. 84

What to Shoot .................................................................... 43

Toning ........................................................................ 86

Profiles in Infrared: Paul Nuber ...................................... 44

If One Tone is Good, Why Not More? .................. 88

Painterly Effects .......................................................... 91

Printing IR Images with Ink Jet Printers .................... 130

Creating Digital Art ............................................ 92

Inks and Papers .......................................................... 130

Profiles in Infrared: Robert Williams .......................... 94

Printing Your Photos ................................................. 132

Solarization or the Sabattier Effect .............................. 97

Proofing ........................................................... 132

Woodcut Effect .......................................................... 97

Printing ............................................................. 132

Hand Coloring ............................................................ 98

Portfolios ........................................................... 132

Actions and Artistic Options ....................................... 100

Managing Accurate Color

132

Creative Edges ............................................................ 102

Lord Kelvin and the Temperature of Light ......... 133

onOne Software Photoframe .............................. 102

Monitor Calibration ............................................ 134

Photo/Graphic Edges ........................................ 104

Color Spaces ...................................................... 136

Digital Noise .............................................................. 105

Output Solutions ........................................................ 136

Noise Reduction Pro .......................................... 106

Baby Can I Drive Your Printer .......................... 137

Grain Surgery ..................................................... 106

Ink on Paper .......................... ............................ 139

Digital GEM Professional ................................... 106

So Waddaya Do to Get the Best Results? ............ 139

Noise Ninja ........................................................ 107

Profiles in Infrared: Rick Sammon .............................. 140

Noiseware .......................................................... 107

Black and White in Color .......................................... 142

Profiles in Infrared: Eric Cheng ................................. 108

Printing Challenges

142

Get to Know Your Printer Driver ........................ 144

Creating Infrared Effects .................................................... 110

Making a Personal Test Print .............................. 145

Powerful Plug-ins for Conversion to IR ..................... 111

Ink Jet Papers ............................................................. 146

Not So Pseudo-Infrared Color ................................... 116

Long Lasting Prints .................................................... 147

Using Actions .............................................................. 117

Profiles in Infrared: Steve & Aaron Cathcart .............. 148

Film & Grain Fx Simulator by das bosun ............ 119 Black and White Infrared Film by Rozilynn ....... 119

Website Resources ................................................................ 150

Craig's Actions ................................................... 120 Cross Processing ........................................................ 122 Do Your Curves Look Like Mine? ....................... 126

Glossary .................................................................................... 152

Cross-Processing Plug-ins ................................... 127 Profiles in Infrared: Reggie Linsao .............................. 128

Index ...................................................................................... 158

foreword By Rick Sammon

8 foreword

W

henever my Uncle Benny walked into a room and flipped on the light switch, he always announced, "Let there be

light." Sometimes he used a more witty approach and said, "Let me shed a little light on the subject." Hey, it may be corny, but Uncle Benny was right about one thing: We photographers would be lost without light. Technically speaking, when we take pictures we're recording visible light on a piece of film or a digital imaging sensor. That's why it's important to closely observe a scene's lighting conditions before we make a picture. But what about invisible "light," such as infrared radiation?

Photo © Joe Farace

Photo © Rick Sammon

complete guide to digital infrared photography 9

One of my earliest photographic memories was watch-

nique and technology, but is also author of the "Digital

ing my mother hand color a black-and-white picture.

Innovations" column that appears regularly in

For me, it was magical to see the picture's transforma-

Shutterbug magazine.

tion from black and white to color. That's exactly how I feel about digital infrared (IR) photography. If you want to create pictures with a unique look, consider digital IR. That's where this book and Joe Farace come in. Joe

But Joe is not a geek, and this isn't a geeky book; it's all about having fun with digital infrared photography— both in camera and in the digital darkroom. (Uncle

will show you how to produce infrared images using a

Benny liked to have fun, too.) One of the things I

digital camera as well as how to convert pictures that

admire about Joe's writing is his ability to make seem-

were previously "straight" photographs.

ingly complex techniques understandable to even a beginning photographer. So buckle your seat belt, it's

Joe is my very dear friend and was technical editor for

going to be a fun ride. Let's travel with Joe down the

several of my books, so he's the best guy to tackle a

infrared highway.

technical subject like infrared photography. He has not only written over twenty books on photographic tech-

Photo © Joe Farace

10 foreword

Photo Joe Farace

complete guide to digital infrared photography 11

"Results are uncertain, even among the most experienced photographers." Mathew Brady

12 introduction

Mathew Brady was probably referring to the

comprehensively explores digital infrared photogra-

daguerreotype process, but he could have just as well

phy. It therefore is not a primer on photography; you

have been talking about infrared (IR) photography.

can find that information in other Lark Book publica-

Creating digital IR images is not overly complicated,

tions such as The Joy of Digital Photography and

but it does require a certain amount of knowledge

Mastering Black and White Digital Photography.

and practice. The element of surprise, however, is one of the aspects that keeps digital infrared photography fun and challenging. I expect that you already know how to make a properly composed and exposed photograph, maybe even using the camera's Manual exposure mode. This book

Welcome to the World of Infrared Astronomers have long used the infrared spectrum for astrophotography. There are also plenty of scientific applications for terrestrial infrared photography, including forensic investigation and aerial surveys of crops or forests. But you did not buy this book for those reasons. Part of the fun of photography is trying new things. Digital IR photography helps you look at your world in a new way and lets you create otherworldly images that appear unlike those from any other technique you're likely to try. That alone is a good enough reason to try infrared digital photography. Look at the photo on this page. The surprising tone shifts and starkness, the ethereal white grass and soft-looking leaves, the dark and brooding sky: These are the hallmarks of black-and-white IR photography. This is an often invisible world made possible by infrared recording techniques.

The first image was photographed in full color. The second is a standard black-and-white conversion, produced with image-processing software. The third is an IR photograph, which was shot with a Canon digital SLR specially modified for infrared photography. Photos © Rick Sammon.

complete guide to digital infrared photography 13

What is Infrared Light? Infrared color photographs often have a fairy-tale look because colors are topsy-turvy.

IR

color film ren-

Technically speaking, infrared is invisible radiation rather than light. I shall, however, sometimes refer

ders infrared-reflecting plants in orange to purple-red

to "infrared light" in order to describe what your

tones, while the use of camera filters can suppress the

camera is recording during the process of infrared

blue and green components that are also present. You

photography.

can work in the digital darkroom using software to create IR color film effects.

We normally use visible light to create photographic images on digital sensors or film. What humans see as red, orange, yellow, green, blue, indigo, and violet are really different wavelengths of light. The waves get longer as they approach the red portion of the spectrum. Every color's wavelength is measured in

14 introduction

As with all things related to digital IR, there are many ways to accomplish what you want. Here, a conventional, full-color image was shot in available light with a Canon EOS digital SLR. Next, a "faux" monochrome IR version of the image was created with image processing software using techniques that will be described later in the book. Finally, as you will discover as you read through these pages, true IR color can only be photographed using special films such Kodak's Ektachrome Profession IR slide film, but the effect can be simulated using digital darkroom techniques as shown in the third version of the photograph.

nanometers (nm: one billionth of a meter) or microns

beginning of the infrared spectrum, which extends to

(one millionth of a meter—sometimes the term mil-

wavelengths of one million nm. Though this band of

limicron is used interchangeably with nanometer).

radiation is invisible to our eyes, it has some of the same properties as visible light; for example, it can be

Red light begins at wavelengths of about 650 nanome-

focused and reflected. And just like visible light, IR

ters. Violet light has wavelengths around 400 nm,

wavelengths can be polarized.

while yellow light waves are around 575 nm. Immediately above and below the visible light spec-

We don't use the full spectrum of infrared radiation

trum are wavelengths that we cannot see with the

for infrared photography. Our primary concern is the

naked eye. Ultraviolet rays are shorter than violet

range of IR wavelengths between 700 and 1000 nm-

light, ranging from about four nm to 380 nm. Infrared

closest to visible red. This near infrared (NIR) is the

wavelengths of 700 nm are longer than visible red

range that is most readily recorded by the sensors in

(give or take a few nanometers). This marks the

today's digital cameras.

complete guide to digital infrared photography 15

This church was shot on Kodak Ektachrome Professional Infrared fil m using a Nikon film SLR with a Nikon R60 red filter (which is similar to a standard 25A red filter). The exposure was made by setting the camera to ISO 200 and bracketing like crazy. Digital technology has made IR photography much more convenient for the average photographer, making the special handling required for creating images with film virtually a thing of the past.

16

introduction

A Note about Infrared Film

What's in This Book?

To better understand how digital infrared photogra-

First we will discuss how to capture IR images direct-

phy works, let's first quickly consider the world of

ly using a digital camera. Next we will look at how to

film IR photography. You will then understand why

create the infrared look by converting digital files into

digital technology has made infrared photography

virtual (or faux) IR images in black and white or color.

more accessible to amateur photographers than it

This section will be as cross-platform as possible. A

used to be.

recent version of Adobe Photoshop was used to process most of the illustrations in this

Photographers have long used infrared films that are

book, but many other image-processsing programs

not only sensitive to infrared radiation, but also to a

offer similar tools.

portion of ultraviolet and all visible-light wavelengths. These films gave photographers the ability to

The "third half" (as they say on NPR's "Car Talk") of

make pictures with that special "IR look."

this book is about what to do with IR images after you create them. That's an important part of the fun

However, IR films are less stable than other photo-

of IR photography.

graphic emulsions. Thus they are difficult to use and process due to special handling requirements. You

So let's have some fun and make a

have to unload your IR film in total darkness and,

few digital IR images...

most likely, process it yourself or find an ever-dwindling pool of specialty labs to do it for you. No such special handling is required with digital photography: You can make prints directly from your memory card.

complete guide to digital infrared photography 17

Getting the I mage on Your Sensor "Get it on the negative." Leon Kennamer

Is Your Digital Camera IR Sensitive? Digital infrared photography is not merely an esoteric

Digital cameras are designed to make pictures using

pursuit, but one that is gaining in popularity as digital

visible light. But nearly all sensors (either CCD or

technology takes over the field of photography. It is

CMOS) used in digital cameras are sensitive to

an application that has the power to transform mun-

infrared as well. However, because this sensitivity

dane visual experiences into images that are unforget-

could cause problems with color rendition, exposure

table. Ordinary scenes you might never think of pho-

metering, and focusing, manufacturers usually place

tographing can take on a remarkable look in infrared.

a filter in front of the imaging sensor to prevent

If surreal color or dark skies with snow-white foliage

excessive infrared light from striking it (but allowing

and increased contrast appeal to your aesthetic sensi-

visible light to pass). These internal IR cut-off filters

bilities, IR is definitely for you.

(IIRC), often referred to as hot mirrors, protect the image from color errors and desaturation without

And what the heck, digital IR is FUN!

reducing ISO speed. The IIRCs fitted in today's cameras are not uniform in their ability to stop infrared light from striking the sensor. Consequently, some brands of digital cameras (Fuji, Olympus, Sony, and some models from Leica and Panasonic) have a reputation for transmitting more IR light than others. Many compact digital cameras from the earlier days (pre-2002) of digital imaging are known for their IR capability. But that is not to say that other, newer models cannot successfully shoot infrared images.

18 getting the image on your sensor

These before and after shots show the power of infrared photography. The top image is a conventional color digital photograph and the bottom is an IR photo of the same scene shot with a Nikon D1X and a Wratten #87 filter. Photos © Aaron Cathcart.

complete guide to digital infrared photography 19

If your digital camera is relatively sensitive to IR, you can use a special IR filter on the end of your lens to perform the opposite task of a hot mirror: The IR filter will block visible light, thereby allowing infrared wavelengths to pass through the lens to the sensor. A strong IR capability is a feature that is often overlooked when cameras are reviewed in the photographic press. So how do you know if your camera is capable of photographing IR?

20 getting the image on your sensor

Dust happens, especially in digital SLR cameras. It accumulates on your sensor (or the filter that rests in front of the sensor) during the normal process of changing lenses. You can minimize dust accumulation by keeping your lenses clean and capped and by turning off your camera before changing lenses so power to the chip does not attract even more dust. If

you choose to remove internal dust on your own, use

a commercial tool designed for the task and follow the manufacturer's instructions. Please note that some camera companies warn about cleaning imaging chips yourself and state that it may void your warranty. Thus we recommend you proceed at your own risk. If

you still have dust, the safest thing to do is send the

camera back to the manufacturer for cleaning.

Test Your Camera for IR Capability Like everything in digital photography, equipment is changing rapidly, so you'll need to test your own camera to find it's potential to record infrared. How do you do it? Whenever I get a new digital camera, I give it the "remote control test." What's that? One of the easiest ways to check whether your digital camera is capable of recording infrared images is to activate and point a TV remote control at the camera and take a picture (or look at the subject on the LCD panel of a digital point & shoot).

complete guide to digital infrared photography 21

This digital IR image was recorded with a Canon EOS digital camera modified for IR photography. It was photographed using the color mode setting. 1/125 second; f/8.0; ISO 200.

IR Conversions When photographing the IR-emitting end of the

There are several services that will convert certain

remote control in black-and-white mode (the best way

models into IR-only cameras. This process primarily

to do this test), you should see a point of white, the

consists of removing the cut-off filter (IIRC) and

brighter the better. If the camera does not record the

replacing it with a filter that blocks visible light.

beam, it is probably not sensitive to infrared radiation.

Although expensive, a converted camera is highly effective and convenient if you plan on shooting IR

If your camera passes the test, all you need to do is

frequently.

get yourself an external IR filter or two to fit on the end of your lenses. If your camera doesn't pass, you

Once modified, your camera cannot be used for con-

can still find a way to create infrared images by get-

ventional photography; it will be dedicated to IR pho-

ting a converted camera.

tography. However, for avid IR shooters, an investment in a converted camera does offer advantages. Since an internal filter is being used to block visible

22 getting the image on your sensor

4 Here is the result when you convert to black and white with image-processing software.

light, there is no need to use a dark IR filter on the

your home are sealed. The retrofitting may also set a

lens. This is a big advantage for digital SLR shooters

custom (called preset by some manufacturers) white

because it is easier to view your subject to compose

balance specifically for IR photography.

and focus. Also, because the IIRC has been removed, the camera is much more sensitive to infrared waves.

The filter used in a typical conversion is delicate

This allows you to shoot at lower ISOs and/or to set

and cannot be touched. An optional "hardened"

shutter speeds fast enough to handhold your camera. In

filter may be available. This can be cleaned using

contrast, a non-converted camera with a filter on the

conventional means, and that's what I had installed

lens almost always requires a sturdy tripod.

on one of my cameras.

The converted camera will only record reflected IR

For more information about this process, try a web

radiation, thus, for example it's not a thermal camera

search for the term "IR camera conversion."

that would allow you see how well the windows in

complete guide to digital i nfrared photography

23

Open a duplicate TIFF of your JPEG in your image-processing program.

_

I

Open the Levels dialog window (Image >

Adjustments > Levels) and adjust as needed by dragThis IR color image was recorded as a JPEG using an IR-converted Canon EOS digial SLR. But I want the classic black-and-white IR look for this photo. 1/320 second; f/8; ISO 200.

ging black triangle just under the left edge of the graph and the white triangle just under the right edge of the graph. This isn't rocket science, so check the Preview box and watch as you make these changes until the image has the look you want.

Recording and Processing JPEG Images for IR Most digital cameras offer a choice of file formats in which to record, often between JPEG and RAW (and sometimes both simultaneously). Many photographers choose to shoot JPEG files because they take less space on your memory card and often require fewer steps and less time to process.

The next step is to convert the file from RGB to Grayscale (Image > Mode > Grayscale). Click OK to discard the color information and create a file that

If your camera does not have a black-and-white

looks like a black-and-white IR photo.

shooting mode, it will record a false color IR image. Your IR JPEG images may need a few tweaks in your

This isn't the only way to accomplish a black-and-

favorite image-processing program to get them to

white conversion, but it is the simplest. Other

look the way you expect. There are several ways to do

methods, including the use of the powerful software

this, and the following steps detail one of the quickest

tools, are described in the chapter on Creating Digital

and easiest methods.

IR Images.

24 getting the image on your sensor

A couple of quick image-processing steps converted the IR color JPEG original to black and white. The depth of field would have been greater had I shot using f/11 instead of f/8, but the photo still works for me (you can read more about focusing and depth-of-field considerations for IR in the next chapter.)

complete guide to digital infrared photography 25

Recording and Processing RAW Images for IR A camera retrofitted for IR-only capability operates just like an unaltered camera with a few exceptions. You should only use the white balance setting provided by the folks who converted your camera because this setting has been customized to make the images as neutral as possible. (Instructions are usually included with the camera to tell you how to reset it if needed.) In order to achieve optimum image quality, shoot in RAW mode and save the images as 16-bit TIFF files. However, Adobe Photoshop currently does not recognize the modified white balance provided in converted cameras, so you will need to make adjustments in Camera RAW, an Adobe plug-in that allows you to work on RAW-format files and import them into Photoshop at their maximum quality. (These suggestions apply strictly to Camera RAW 3.0. and higher— earlier versions may be slightly different, but the screenshots provided here should give you an idea of where and how to move each slider to achieve the final result.) This series illustrates what you need to do to achieve the Freaky Friday look of a monochrome IR image.

Step 1: Open the image file in Camera RAW via Adobe Bridge (File>Open in Camera RAW).

26 getting the image on your sensor

Here is the final monochrome IR picture processed from a RAW file. A color depth of 16-bits is a good idea to make the most of an image file from a modest three-megapixel camera, such as I used for this picture. (But as you can see from the Depth drop-down menu in the preceeding screen shots, I don't always follow that advice!) 1/125 second; f/11; ISO 200.

complete guide to digital infrared photography 27

Brody Dezember is a professional photographer who

Brody's website (www.dezemberphoto.com) features

works in the Salt Lake Valley of Utah. He specializes

a sophisticated portfolio of posed and candid wed-

in photojournalistic-style wedding photography and

ding and portrait work, and includes examples of his

often shoots infrared to add a dramatic or dream-like

black-and-white infrared photographs. It also offers

quality to his images. A self-described "computer

information on IR camera conversions.

junkie," Brody was the one of the first photographers in the state of Utah to implement an all digital studio.

28 profile

complete guide to digital infrared photography 29

Focusing and Exposing in IR "Mysteries lie all around us, even in the most familiar things, waiting only to be perceived." Wynn Bullock There are an infinite number of creative possibilities when working with digital IR. This picture was shot using an IR-converted digital SLR. The sepia toning and water effect were added using i mage-processing plug-ins.

Infrared photography is different in many ways than traditional photography. Aside from recording a separate segment of the energy spectrum, modifications in equipment are needed, shooting techniques are different, and clearly, the results take on a look entirely their own. For instance, IR reflectivity is affected by many factors, including the temperature and time of the day. With experience, you will look at the window and say, "This is a great day to make IR pictures." Conversely, you'll know when it's a waste of time to shoot infrared because conditions are not right. Often it seems that when the lighting is perfect for traditional photography, it is probably a bad day to make IR photographs. But I like to say, the only rule is "there are no rules," so explore every possible condition. And make notes about them with each image using the captioning capability of your image-processing program. There are also several technical ways that infrared differs from traditional photography. Important among these are how IR affects focus and exposure.

30 focusing and exposing in IR

Focusing Differences Focusing for IR photography can be a challenge .. .

Most lenses, however, aren't chromatically corrected

but only if you want to make it one. You may be sur-

for IR wavelengths and thus can't focus infrared

prised to learn that even the various wavelengths in

wavelengths on the same plane as visible light. That's

the visible color spectrum do not focus on exactly the

why it may be necessary to adjust the point of focus

same plane when passed through a lens. Much like a

slightly when shooting infrared images. You might be

prism, glass lens elements produce a rainbow of color

interested to know that for most photographic lenses,

as light passes through them. This difference in the

this shift is approximately 1/ 400th of the lens' focal

optical behavior of various wavelengths of visible

length, but I'll show you less mathematical ways to

light is called a chromatic aberration. Over the years

make sure your IR photos are in focus.

the optical engineers at the different lens manufacturing companies have devised formulas and coatings to correct the many types of chromatic aberrations. Lenses described by terms such as achromatic, apochromatic (APO), super apochromatic, and ED glass accomplish this in one way or another.

complete guide to digital infrared photography 31

Focusing with Digital SLR Cameras In the past, many manufacturers of SLR lenses placed an infrared mark on their products to help you make this focusing adjustment. If present, it is usually indicated by a red dot or an 'R' on the focusing index, or a curved red line on zoom

lenses.

This is helpful if you

are using such a lens on a non-converted digital SLR that lets you manually focus. Unfortunately, most manufacturers no longer put an IR focus mark on their lenses. If this focusing mark is on your lens, here's how to use it: Before the IR filter is in place, focus normally.

Some lenses, including this Canon EF 50mm f/2.5 Compact Macro AF lens, have an IR mark for manual focusing. When shooting IR with an opaque filter, set focus before attaching the filter. To do so, focus manually, then set the focused distance opposite the lens' red IR indicator. Finally, attach the filter and shoot.

Then rotate the lens' focusing ring so the focused distance appears opposite the infrared focusing mark.

still acceptibly sharp is known as the hyperfocal dis-

Attach the IR filter and shoot.

tance. Consequently, any object that is between this point and infinity will also be in focus.

What about those of you who do not have this type of equipment? Are you tossed out of the IR focusing

Your goal in using the hyperfocal distance is to maxi-

game? Fear not young padwan, help is on the way.

mize the size of this area of depth of field. If you set focus at the hyperfocal distance instead of infinity, you will achieve the greatest depth of field possible, making it extend from half the hyperfocal distance to infinity. This gives you the greatest odds of insuring

Hyperfocal Distance

your subject is in focus.

Another way to deal with IR focusing is to use the hyperfocal distance. This is my favorite method, espe-

Depth of Field Scale

cially when working with wide-angle lenses. It uses depth of field to your focusing advantage.

After you pick an aperture, such as f/16, rotate the focusing ring so that aperture (f/16) on the depth of field scale is

Though technically there is only a single plane of

opposite the infinity mark. On the lens below, this gives a

sharp focus in a photograph, in actuality there is a

depth of field from about 14 inches (between .3 and .4

space in front of and behind the plane of optimal

meters, or about 36 cm) to infinity—more than enough to

focus that is acceptably sharp. This is the depth of

take care of any focus shift caused by infrared wavelengths.

field. When you focus on a subject, a rule of thumb states that this area of depth of field extends from one-third the distance in front of your subject to twothirds behind. Imagine that you have focused your lens on infinity. There will be a range in front of infinity that will also be in focus. The closest point to your camera that is

32

focusing and exposing in IR

This photograph was made with a Canon EOS digital SLR that has been converted to IR use. The lens was set at the hyperfocal distance for f/11. 1/250 second; ISO 400.

complete guide to digital infrared photography 33

It's not easy to know the precise hyperfocal distance for any given situation. It is variable depending on the f/stop and focal length you are using, as well as the size of the sensor in your digital camera. The technique is easier to use if your lens has a scale on it for depth of field (a once common feature that is also getting more difficult to find on modern SLR lenses). Since more and more digital SLRs and almost all other digital cameras are designed with lenses that have no apertures or depth-of-field scales on them, you will have to develop a sense of where the hyperfocal distance lies based on precalculated charts. Use the chart above to determine the approximate hyperfocal distance in feet or meters from your camera.

34 focusing and exposing in IR

This MC Zenita 16mm f/2.8 extreme wide-angle lens was manufactured for film SLR cameras, but it works great with my converted digital SLR too (although it must be manually focused). I prefer to set it at f/16 (or something similar) and then set infinity across from that aperture on the lens' depth-of-field scale. This keeps it in focus from a fraction of a meter to infinity. I never focus the lens. When it's mounted on my converted Canon EOS digital SLR, I treat the combo just like a digital point-and-shoot camera.

IR-Converted Digital SLRs To account for the back focus change resulting from

ilters), making it nearly impossible to get a sharp

the removal of the IIRC, the advice from those who

handheld exposure. When shooting on a support, I

make these conversions is to set the aperture at f/11

pick an exposure mode based on environmental con-

or smaller. Shooting at small apertures should not be

litions. Windy days call for Shutter Priority (Tv).

a problem because there are no filters to shoot through

Most other times I simply use Program (P) mode, to

when using an IR converted digital SLR.

keep things simple.Of course, using the hyperfocal distance is one way to get sharp focus with these cameras. If the camera has an electronic viewfinder (EVF), I first compose and place the filter in front of the lens, then wait for the

IR-Converted Advanced Compact Zoom Digital Cameras

mage in the EVF settle down and compensate for the

Some of these cameras have manual exposure modes

CD preview screen.

ilter's density. You can see the IR effect in the EVF or

that allow you to set the lens aperture; if your camera has this feature, set the smallest aperture available

You might think that the image passing through an IR

(largest f/number). Sometimes this is only f/8, which

filter may be too dark or lack contrast for the camera

may not seem like a large number in comparison to

to focus, but EVF cameras snap readily into focus. So

SLR standards. But don't let that stop you from hav-

if you have an EVF camera, let it focus through the fil-

ing fun, it is still enough to give adequate depth of field. The ability to stop down farther is often not

er. If the camera has a black-and-white mode, I use that to get a real preview of the final image.

needed on these cameras, and most of your images won't be intense close-ups anyway.

Focusing with Non-SLR Digital Cameras My IR shooting technique with these types of cameras is so simple you might call it point-and-shoot infrared. It is important to use a tripod since IR filters are quite dark (see the next chapter for the scoop on

complete guide to digital infrared photography 35

Exposing for Infrared Wavelengths Because exposure meters are not sensitive to infrared

The series of pictures on the opposite page illustrates

wavelengths, it becomes difficult to calculate exact

bracketing. Which of the shots in the bracketed series

exposures. But there are ways to get properly exposed

is the "right" one. Here's the good news: It doesn't

digital IR photographs, especially with digital cameras.

matter. Whatever one you like best is the right one. Don't ever forget they are your pictures, so you have

Digital cameras provide instant feedback about the

nobody else but yourself to please.

shots recorded on your memory card. Not only can you use the LCD screen to review the picture you've just shot for brightness, but many digital cameras also let you use it to review the histogram, giving you

ISO Settings

accurate information about how over- or underex-

With digital IR photography, one of the best exposure

posed the picture might be (see page 38). You can

techniques you can try when getting underexposed

often reshoot a picture using different settings or

shots is to increase the camera's ISO setting. This also

exposure compensation if you determine the exposure

increases noise, giving the image a more "IR film"

is not acceptable.

look, which you may or may not like. The trade-off is increasing aperture size (smaller f/numbers), but there you have to do a delicate balancing act between

Bracketing

exposure, depth of field, and possibly losing focus on an important part of the image.

Another method to help with infrared exposure is bracketing. This means you make several photographs (in this case, three to five is sufficient) of the scene, changing the exposure each time. Most digital

Manual Exposure Mode

SLRs offer a built-in bracketing function that will

If all else fails, many digital SLRs offer a Manual

make a specified series of shots at exposures over and

exposure mode. You don't need a hand-held exposure

under what is considered normal. Read your manual

meter to get started in Manual mode. Typically I will

for directions because every camera is a little differ-

determine what the suggested exposure is in Program

ent. Even if your camera doesn't have a bracketing

mode, then transfer that shutter speed and aperture to

function, it should have an exposure compensation

the camera after it's set in Manual mode. Now you

feature that will let you adjust exposures in incre-

are free to change the shutter speed or aperture to

ments of one-half or one-third (my preference) stops

bracket exposures.

while in the various automatic exposure modes.

36 focusing and exposing in IR

Bracketing Your IR Photos

This is the original scene before I shot a bracketed series of infrared photographs. The same camera and lens were used, only the exposure and color mode were changed. 1/640 second; f/9; ISO 400.

This series demonstrates the bracketing method used to achieve a properly exposed IR image. I began by first setting the camera to black-and-white mode and mounting a Cokin P007 filter in front of the lens. The Olympus digital SLR used for this series automatically makes three different consecutive exposures by changing the shutter speed when it is in Aperture Priority mode. The second and third bracketed shots were made at slower shutter speeds as exhibited by the decrease in sharpness of the leaves (compared to the first photo), caused by the wind moving them slightly. So what can be done? Switch to Shutter Priority mode to increase shutter speed or move the ISO setting up. Or maybe you like the blur, so what the heck.

complete guide to digital infrared photography 37

The Proper Exposure After bracketing a series of images or using your camera's exposure system to set plus or minus compensation values, the next step is to determine which image has the best exposure. You can use your digital camera's LCD screen to look at the images and determine if you need to continue making adjustments to the exposure. But my favorite method involves using the histogram that's built into your camera, probably somewhere in its "INFO" mode. (This will vary with

Shadow details will be lost when the graph falls straight down the left axis.

each camera. Read your camera's manual to see if your camera has a histogram and how to review it.) If you're not familiar with a histogram, don't worry. It's not something the night nurse will be bringing in during a stay at the hospital. In statistics, a histogram is a graphic representation of tabulated frequencies. In digital photography, it's a display of the tones in the i mage file, ranging from the darkest shadow (the left vertical axis of the graph) to the brightest highlight (the right axis of the graph). Traditional darkroom practitioners might think of it as a digital Zone System with Zone Zero at the leftmost part of the his-

ms example of a histogram snows copping m highlight details as the graph falls straight down on the right axis.

togram and Zone X at the extreme right. Generally, proper exposure is indicated by a histogram when the graph starts at the intersection of the left vertical axis and horizontal base. The graph will then curve up and down somewhat through the middle tones, and will end just at the intersection of the horizontal base and the right vertical axis. If the graph butts up to either the left or right vertical axes, so that it falls straight down like a cliff, you will see 'clipping' in your image, or loss of detail in the shadows (left side clip) or highlights (right side clip).

38 focusing and exposing in IR

This example demonstrates no clipping of shadow and virtually none in highlight detail.

adjustments to optimize the image, most typically by applying plus exposure compensation or by using Manual (M) exposure mode to increase the exposure. Be warned that sometimes you will increase exposure and the histogram won't change. That's the nature of IR, and it often varies from scene to scene because This histogram is from an exposure made with an IR-converted digital camera. The space between the end of the graph and the right axis indicates that no light tones were recorded in the picture. (It is important to note that there is almost always a lot of highlight areas in a landscape-type IR picture because deciduous green plants appear white, remember?) Usually the histogram for a properly exposed image ends just at the right axis.

some subjects that look quite bright to your eye may be dead in terms of infrared content. In that case, continue to make increasingly stronger exposure adjustments until you see a change, then stop. However, like nearly all photographic tools, histograms are not the Dead Sea Scrolls. Don't let them rule your life. They merely give you an idea of where to go with exposure. And get this: Sometimes the IR content of an image is zilch. In that case, it's like taking a color picture of a black horse in a field of snow. No matter how hard you try, you're not going to make it have much color. For the most part, you should be able to increase exposure to get data in the right-hand side of the histogram. But remember, we are

Here is a histogram as it appears in the Levels option (I mage > Adjustments> Levels) in Adobe Photoshop. It displays data in a similar way as the camera's histogram; and like the example from the camera above, it is also underexposed. You can attempt to fix the underexposure by moving the right triangle so it sits just under the end of the right edge of the data curve.

applying the rules of visible light to invisible light and they don't always translate as neatly as we might like. I believe it is always best to create the most optimal image possible in-camera rather than depending on image-enhancing software to "fix the image" later after downloading. But I leave this for you to prove to

There are two ways deal with histograms: One while shooting, by looking at the histogram on the camera's LCD screen; and the other later, when viewing the image on your computer monitor in an image-processing software program.

yourself; and besides, sometimes it is hard to see that little LCD screen in bright daylight, so maybe you don't know enough to make adjustments in the field. You may need to enhance the file with image-processing software anyway. That may not an ideal solution, but it's a solution. That's why they call it art!

Using the camera's histogram allows you to review your picture and reshoot on the spot if required. If the histogram indicates underexposure, you can make

complete guide to digital infrared photography 39

When I gazed at this scene, it struck me as rather boring. But the trees had potential so I tried to visualize how they would look if shot in infrared. 1/800 second; 1/10; ISO 400. A plus one-stop exposure compensation was used because of the backlit nature of the scene). The picture looked more interesting when I previewed it in IR with a Cokin IR filter on the lens, so I photographed it at 1/25 second, f/3.6, ISO 400 (right, top). A plus one-stop exposure compensation was used. My camera has a sepia mode, so just for the heck of it I switched it on and created what I think is the most interesting photograph of the bunch (right, bottom). Who knew? That's why you should never hesitate to experiment. With digital, you can always erase the clunkers. 1/10 second; f/3.6; ISO 400. A plus one-stop exposure compensation was used.

Seeing in Infrared Photography is usually all about lighting, but IR pho-

IR may be disappointing unless there is some great IR

tography is concerned with invisible wavelengths,

reflective subject matter (we're talking about big

which is why comparisons to conventional photogra-

deciduous trees here) to add interest. The "special

phy are difficult. If you want to create a dramatic

wood" effect (bright to white reproduction of the

image, few things can beat a beautiful sunrise pho-

chlorophyll layer of deciduous plants in black-and-

tographed in color. The same scene photographed in

white images) appears strongest at low sun levels.

40 focusing and exposing in IR

It was a dark and stormy day. A plus two-stop exposure compensation was applied based on my assessment of the preview image in the camera's LCD. 1/200 second; f/10; ISO 800.

Backlighting, long a favorite of photographers, often creates dramatic images—both conventional and IR. this picture was shot with a converted Canon LOS. A plus one-stop exposure compensation was applied based on observing the camera's histograms of test exposures. 1/200 second; f/9; ISO 400.

42

focusing and exposing in IR

If the lighting looks great for standard photographs, such as portraits in the shade, or sunrise and sunset, the rule of thumb is that it's probably not going to work for IR. But don't take my word for it—you need

Really, there are no 'official' subjects for digital IR photography. Sure, summer landscapes with leafy trees, lots of grass, and puffy clouds often make a great infrared picture. But don't be confined to basic landscapes.

to experiment for yourself because you'll never know

Some of the artists profiled in this book like to shoot

for sure what the results will be. For example, see the

people in IR. Take a look at some of their portraits. I

illustration opposite of the farmhouse surrounded by

li ke to photograph cars, so I made this picture of two

trees. Shooting an approaching storm often makes a

classic Jaguars.

great "standard" photograph. But I had a feeling that I could make a dramatic digital infrared image as

I used the hyperfocal distance to insure sharp focus and

well. The trees should retain some IR reflectance via

set exposure compensation at plus 1 - 1 /3 stops to make

heat and the storm clouds should add impact, right?

the whites sparkle. 1 /1 6 second; f/16; ISO 200.

Sometimes when you experiment you get lucky, and that's what happened in the middle of a summer day

Any subject is fair game if you want to produce I

when I was taking my daily walk.

images. As I keep advising, experiment to see what works. You may be surprised at the variety of subject matter you can find for IR photographs.

complete guide to digital infrared photography 43

Paul Nuber of Fort Collins, Colorado is a part-time

In 2000 Paul bought his first digital camera, an

professional portrait photographer whose work

Olympus C2020Z. When he attached an IR filter and

includes shooting weddings, families, high-school

turned on the LCD display, things became clear: "I

seniors, and models (www.pozim.com). Most of his

could see the world in infrared!" It was a quantum

customers buy traditional portraits, but when shoot-

leap from film. Paul says, "I shoot infrared because it

ing for his portfolio, Paul likes to experiment. "I

creates an image with recognizable shapes but unfa-

tried B&W infrared film a few times, and liked the

miliar tonality. Some parts of the image look normal,

effect," he told me, "but it was hard to previsualize

yet other parts don't. I enjoy the contrast of black sky

the results and difficult to expose correctly."

and white foliage."

44

profile

For this autumnal photo, Paul describes the setup as follows: "I selected this setting for the light leaves on the ground, the dark tree trunk, and the interesting sky, positioning myself about 45 degrees off axis with the sun. I asked the model to face the sun for best lighting. The sun is low in the sky, which reduces its brightness and allows it to light up her eyes. I try to shoot IR in direct sun, because it keeps exposure times short enough for the model to hold still, and it keeps the light foliage from going gray." 1/30 second; f/2.2, ISO 200. Photo ©Paul Nuber.

complete guide to digital infrared photography

45

Infrared Filters "I really believe there are things nobody would see if I didn't photograph them." Diane Arbus Digital sensors are designed to imitate the response of

(becoming almost black) filters used for infrared pho-

our eyes to visible light, but infrared photography is

tography totally or partially absorb or subtract visible

about recording non-visible wavelengths. (Remember

light while allowing the transmission of infrared light.

that the spectral range where red wavelengths are no longer visible starts at about 700 nm, give or take a

The information in this chapter is about using filters

few nm.) In order to record infrared photographs,

to produce monochrome or black-and-white IR

those visible light wavelengths below 700 nm must be

i mages. (Black-and-white images are monochrome,

blocked so that they don't reach the sensor. Which

but not all monochrome images, as you will see

brings us to filters. If you shoot with a digital camera

throughout this book, are black and white.) Images

that has not been converted to IR-only, you will need

captured by all of the methods suggested in this book

to use a filter to create infrared photos.

start as RGB (color) digital files and have to be processed to make them appear monochromatic. (Even when you use a camera's black-and-white mode, the sensor is still recording RGB information— the camera then has to process that image to make it

How Do Filters Work?

black and white.) Creating IR color images is a "faux" process that requires creative postproduction tech-

It is a misconception to think that a colored filter adds

niques, covered in more detail in subsequent chapters

its color to an image. This is not the case. When used

of this book.

in traditional photography, colored filters transmit wavelengths that are a similar color to the filter and block ones that are not. For example, in traditional color photography, a blue filter that's used to colorcorrect photographs made under incandescent light does not actually add blue to the image. It subtracts the red and yellow tones, rendering the image more neutral in appearance. Depending on the density of the blue filter, it blocks more or less of these other colors. In much the same way, the various deep red

46 infrared filters

So what kind of filter do you need for your digital camera?

This infrared photo was shot using a conventional digital SLR equipped with a Hoya R72 filter. An exposure compensation of plus one stop was used after reviewing a test shot on the LCD screen. 1/8 second; f/5.1; ISO 100.

complete guide to digital infrared photography 47

Filters for IR Photography Filters have a long history of use in photography for

the beginning of the 20th Century. His company,

both practical and creative purposes. In this guide,

Wratten and Wainwright, made photo materials for

however, we are concerned with filters that specifical-

the commercial printing industry. He had established

ly absorb or reflect visible light, allowing you to

his filter numbering system, the "Wratten system," by

record the infrared spectrum. The classic IR filter is a

1909 when he published

round piece of glass within a metal or plastic mount

Objects. In 1912, George Eastman acquired the compa-

that allows it to be threaded on the front of a lens.

ny and Wratten's system became a standard for filters

These are sold in various sizes to mount directly onto

used in photography, astronomy, and other applica-

different sized lenses. A quality filter is made of fine

tions. Eastman Kodak Company still manufactures

optically flat material mounted within a frame that's

and markets KODAK Wratten Gelatin@ filters. Other

strong, durable, and not prone to binding or cross

filter manufacturers have their own designations, but

threading. This takes precision manufacturing, which

they also often refer to the Wratten equivalent.

The Photography Of Coloured

is why a good filter can be expensive (but will last a lifetime if well cared for).

There is not a great deal of intuitive logic in the organizing system for Wratten numbers. Number 25

Filters come in many different shapes, sizes, and

in the Wratten system is a red filter that passes visible

materials, including delicate gelatin filters that drop

red as well as infrared wavelengths to the film or sen-

into holders or lens hoods, round glass filters, and

sor (thus blocking wavelengths shorter than 580 nm—

square or rectangular glass or optical-plastic ones that

remember that the wavelengths of visible light range

fit into modular holders.

from approximately 380 to 700 nm). You can easily see through a red #25.

The modular concept was popularized by Cokin, whose system includes a holder that attaches to the

Other filters that block all (or nearly all) visible light,

front of the lens with an adapter ring. The system's

from 700 nm and below, will be much darker than the

square filters slip into the holder. Though you may

Wratten #25. Depending on their specifications, these

need different sized attachment rings to fit your vari-

opaque filters are extremely difficult or impossible to

ous lenses, you won't have to buy a different IR filter

see through.

for each lens because the same holder and filter can be used with different sized adapter rings. On the down-

If you happen to be shooting black-and-white IR with

side, since the filter is not physically threaded into the

a red filter, you won't need to compensate for focus

front of the lens like a screw-in type, visible light can

(to use the infrared focusing mark if it exists on your

also enter from the sides, polluting the finished image.

lens, or hyperfocal distance) because most of the light

Is this a good thing or a bad thing? Depending on your

hitting the sensor is from the visible spectrum. This

desired effect, it's a little of both.

means the focusing distance is the same as it would be for an unfiltered photograph. All this changes when an opaque filter is used, because only infrared light reaches the imaging sensor, and a slight focusing adjustment needs to be made. If the lens doesn't have

Semi-Famous Filter Facts

an infrared mark, Eastman Kodak Company recommends that you first focus through a KODAK Wratten

Many filters have a number designation based on a

Gelatin @ #25 filter using a small aperture, such as

system of tolerances first developed by Frederick

f/16 or f/22. Then switch to a darker filter because

Wratten, who pioneered the use of colored filters at

the depth-of-field at these small f/stops usually offsets the slight difference between the visual and

48 infrared filters

infrared focus. (For more on focusing, see pages 30-35)

Find out if your camera has a black-and-white shooting mode. It can help you learn what types of scenes work well as monochrome images. 1/2000 second; f/8; ISO 400. Minus 1/3 stop exposure compensation.

As I've mentioned elsewhere, you can sometimes get fooled about what kind of scene will make a good infrared picture. But this was a good candidate because of the trees, the grass, and the way the light was shining at that time of day. 1/1600 second; f/8; ISO 400.

Cleaning Filters When cleaning glass screw-mount filters, you should take as much care as when you clean your lenses. It's a good idea to use a microfiber cleaning cloth, but never chemical lens cleaning fluid, which might damage the coating. Filters manufactured with optical plastics require even more care because they scratch easier than glass.

Now with the camera set in black-and-white mode, I used a Heliopan RC 1000, an opaque IR filter that blocks all wavelengths shorter than 880 nm. 10 seconds; f/8; ISO 400. Plus one-stop exposure compensation.

Analyzing Transmission Rates and Filter Numbers When trying to describe what an IR filter is actually

lengths of 720 nm, meaning that 50% of the radiation

doing, we often talk about transmission rates. As

with a wavelength of 720 nm is transmitted (and 50% is

we've learned, a filter is designed to absorb or reflect

not transmitted). Typically the rate of change rises quite

certain wavelengths. For IR filters, we are concerned

sharply, so this particular filter may be transmitting

with blocking near infrared wavelengths and the

85-90% or more of radiation with wavelengths

shorter visible wavelengths.

of 750-775 nm.

If a filter (such as an 89B) has a 0% transmission rate

It would be nice if all filter manufacturers adopted a log-

at 680 nm, it is cutting out all wavelengths below that

ical numbering system to identify their filters, but that is

number, thus most of the visible spectrum. In general,

not the case. For example, a Hoya R72 starts to transmit

filters don't suddenly turn on or off at a given wave-

wavelengths above 720 nm, but the company's RM90

length, but block wavelengths at a progressive rate of

transmits wavelengths above 820 nm. By contrast, the

change. This will vary from filter to filter. Therefore,

Wratten 89B, which is similar to a Cokin 007, allows

the filter with 0% transmission of wavelengths of

wavelengths beginning at 680 nm to pass.

680 nm might exhibit a 50% transmission of wave-

50 infrared filters

The B&W 092 infrared filter is a dark, purplish red and blocks most of the visible spectrum, starting to transmit near infrared wavelengths of approximately 680 nm. Photo courtesy of Schneider Optics Inc.

complete guide to digital infrared photography

51

While this lack of a standardized numbering system

Flare often takes the form of a streak or pattern of

can be a source of confusion, it is just the way that fil-

spots on your image. It can be a problem, particu-

ters and lots of other stuff have been handled in pho-

larly when shooting with a wide-angle or zoom

tography, with each manufacturer creating a number-

lens, and it's exacerbated when using an IR filter.

ing system as they go (you'll need a Rosetta Stone to

One of the most important accessories available

help you decipher it all).

when shooting digital IR images is a proper lens hood—one that is specifically designed for your lens. This will help reduce flare that is caused by strong external light sources. To make things more challenging, digital cameras have to deal with more possibility of flare or ghosting than film cameras. Not only can flare and ghosting increase when lenses with flat-surfaced elements are used on digital cameras, but image sensor and internal filters are more reflective than film, creating additional reflections in a digital SLR's mirror box that result in lens flare. Strong flare can produce a blurred image that is clearly observable. And even slight flare reduces contrast, making it difficult to ascertain if an image is slightly out of focus. However, there is only one hard and fast rule, which is: There are no rules. In defense of flare, I like to use it as a compositional element and someti mes deliberately point my lens so that the sun is in a corner of the frame, creating strings of reflections—especially with wide-angle zooms—stretching across the image. When digital purists see this they may pull out their hair in a Charlie Brown like ARRRRGGGGHHHHH! But if you like flare, as I do,

Flare often appears in an image as a series of light circles that detracts from your subject and reduces sharpness and contrast. Sometimes you can use flare creatively by pointing your camera toward the light source.

52 infrared filters

don't let it bother you.

Filter Choices Gelatin filters are made by dissolving organic dye in liquid gelatin, which is allowed to dry. The gelatin is then cut into square or rectangular shapes. A popular size is 3 x 3 inches (7.6 x 7.6 cm), although they're available up to 14 x 18 inches (36 x 46 cm). Since gel filters are only .1mm thick, they offer excellent optical quality, but they are fragile. You can tape gel filters to the front of a lens, but they'll last longer if you use them in holders designed for the task. Camera manufacturers such as Canon, Hasselblad, and Nikon make gel filter holders as well as accessory manufacturers such as Cokin, Kenko, and Lee. In the past, gel filters were inexpensive, but now you can expect to pay $25 or more depending on size and type. Some glass filters are constructed by sandwiching a gelatin filter between two sheets of glass. Over time, these materials could separate, causing bubbling and peeling. An alternative is to dye the glass in a molten state, which also means there's no danger of color shifts as the filter ages. All polarizers are laminated because they use polarizing film to make the filter do what it's supposed to do—reduce reflections. The most commonly used filters are glass mounted in threaded rings. How well a round filter's mounting ring is made should be obvious from just picking it up, twirling it around in your fingers, and screwing it onto a lens. Premium filter manufacturers such as Heliopan and B+W often use brass rings because the material tends not to bind or cross thread. Others use aluminum because it absorbs shock in the case of accidental impact.

The three-slot Cokin Z-Pro holder can hold filters of different thicknesses. Photo courtesy of Omega Satter.

Cokin currently markets four different sized modular filter systems, all of which include their infrared filter. These are the A series, the P, the X-PRO, and the Z-PRO. Each system is designed for the lenses of different formats. Similar modular filter systems are also available from Lindahl, Pro4 Imaging, Sailwind, and complete

guide to digital infrared photography 53

When I planted this apple tree I didn't realize how convenient it would be for making IR test shots with new cameras and filters. This photo was made with an IR-converted digital SLR. 1/15 second; f/22; ISO 100.

Here a Singh-Ray I-Ray filter was used on the same IR-converted digital SLR. The exposure is identical to the first example. There is a slight difference in the image: The sky in the Singh-Ray filtered i mage is blacker and denser, and the white leaves are whiter.

others. These companies offer their own modular

Tiffen manufactures both screw-in filters and those

holder, but the filters themselves are usually compati-

that fit modular holders.

ble with Cokin's holders.

Singh Ray is known for high-quality specialized fil-

While Lee Filters, a division of Panavision, makes

ters. They make filters that fit modular holders, such

high-quality glass, resin, and polyester filters predom-

as Cokin, as well as the ring-mounted I-Ray filter that

inantly for the motion picture and television industry,

blocks nearly all visible light, resulting in some purely

many still photographers use their products. They

dreamlike images.

offer a few polyester IR filters including an 87 and 87C, along with a Red number 25, in sizes from 75mm to 100mm square. There aren't any IR movies or TV shows out there, at least not yet.

54 infrared filters

Why is a tripod absolutely necessary if you plan to shoot IR using a conventional digital camera with IR filters? Well, there are a couple

This conventional color photo is used as a reference for the IR images on this page. The camera was mounted on a tripod. 1/125 second; f/22; ISO 400.

of reasons. First, with an unconverted camera, the IIRC (that hasn't been removed) reduces the amount of IR wavelengths reaching the sensor. Second, remember that you need to stop down in order to take advantage of the depth of field necessary to insure that IR photos are acceptably sharp. Smaller f/stops further reduce the amount of light that can reach your sensor. To compensate for these circumstances, you will have to increase exposure ti me, making the use of a tripod or other form of camera support essential. A quality tripod is an investment that is sure to i mprove your photography. It should be sturdy but lightweight enough so that you'll take it with you. Otherwise a tripod does you no good whatsoever. In addition, using a tripod

With a Singh-Ray I-Ray filter attached to my lens, I switched to Manual exposure to set a longer shutter speed at the same aperture. This image was difficult to evaluate because of glare on the LCD screen, so I enhanced it in the computer. 6 seconds; f/22; ISO 400.

enforces a deliberate approach to making photographs. Having to think about composition before banging off a few frames will improve the quality of your images more than you might imagine.

This image was created using the in-camera sepia mode. Adjusting the shutter speed from 6 to 4 seconds helped decrease the exposure. 4 sec onds; f/22; ISO 400.

Different Filters Give Different Effects This series of photos illustrates the results of experimenting with different filters. The pictures will give you an idea of what happens when you place different filters in front of your lens.

The non-IR color image was shot using a digital SLR. 1/500 second; f/9; ISO 400.

B+W's 090 red filter is equivalent to the number 25 in the Wratten system. It is also useful for enhancing contrast in digital black and white and can give great tonal results when shooting landscapes. The 090 filter does not create a fully IR photo because it blocks all wavelengths below 580nm, but allows some visible light wavelengths to pass. 1/100 second; f/4.0; ISO 400.

Premium IR Filters Alas, it often seems that there is no middle ground in

These no-compromise filters are not just for fooling

IR filters. As soon as you move past the initial con-

around with IR photography, more often than not

sumer-level choices, the price curve rises pretty quick-

they are used for professional, scientific, and technical

ly. This is largely a result of the way these premium

applications, which necessitates stricter standards and

quality filters are manufactured.

quality control. This includes: high-quality, optically flat glass or resin that is ground, polished, and coated

Consumer-level filters are generally produced in much larger quantities and seem to be built to a price point (so the average photographer like you and me can afford them), while manufacturers of premium brands claim higher labor costs because they use skilled employees and build to tighter tolerances.

to the strictest tolerances of the optical industry and high consistency from batch to batch. Premium screwin filters are mounted in anodized brass rings to reduce binding or cross threading and to ensure optimal alignment. These high-end filters also tend to be offered in a wider array of sizes and types, including bayonet mounts for use with Rollei and Hasselblad. This extra expense is probably absorbed to a degree by the pricing of the more popular filter sizes and types.

56 infrared filters

A B&W 092 IR file created a relatively mild effect in this picture. Why is it so subtle? I don't know for sure. Sometimes the result depends on how the filter relates to the inherent IR sensitivity of the camera's sensor. 3.2 seconds; f/22; ISO 400.

The B+W 093 filters out the entire visible spectrum and transmits over 95% of wavelengths longer than 900 nm. Though filters like this can create a strong IR photo, hot spots like the one on the right sometimes appear when infrared reflectivity is high. These kinds of "blooms" are not always visible on the camera's LCD review screen, which is why it is always a good idea to bracket exposure. 10 seconds; f/22; ISO 400.

complete guide to digital infrared photography 57

Many early Konica Minolta digital cameras are infrared sensitive, so I decided to test how responsive a DiMage point-and-shoot model is to IR radiation. With the camera mounted on a tripod, I shot this photo using black-and-white mode. 1/1000 second; f/3.3; ISO 100.

Using Filters with Non-SLR Digital Cameras What if you don't currently own a digital SLR? Can

digital cameras. Don't overlook one of the greatest

you use IR filters with the popular small digital cam-

sources of photo gadgets the world has ever known—

eras that usually don't have threaded lenses for

Porter's Camera Store. They offer adapters for Canon,

accepting filters? Sure, why not?

Konica Minolta, Olympus, and Sony digital cameras.

Some camera manufacturers, including Leica,

Also, Cokin makes a Digi-Shoe Holder that attaches to

Samsung, Sony, and Toshiba, offer adapters to allow

the camera via the tripod socket and accepts their

filters to be used on their digital zoom cameras. Plus

A-series filters. If you don't have a tripod socket,

there are lots of filter adapters made by accessory

don't worry. They also produce the Digi-Magnetic

manufacturers. For example, PictureLine makes an

Holder that works with most small cameras.

extensive line of adapters for Canon point-and-shoot

However, for best results, the caveat remains that

58 infrared filters

Next I held an I-Ray infrared filter in front of the lens. The camera is still on a tripod. The exposure for IR was relatively long. I'll show you how to add the sepia tone to your black and white IR images in an upcoming chapter. 2 seconds; f/3.3; ISO 160.

there should be as little space as possible between the filter and the lens. Whatever holder you are thinking of buying, try it out in your friendly neighborhood camera store before plunking down the twenty bucks it costs.

complete guide to digital infrared photography 59

This is an example of the surreal look that Chip Talbert likes to create. He was struck by the juxtaposition of the unusual artwork in the foreground with the ordinary buildings in the back. This almost looks like an alien landscape. 1/60 second; f/2; ISO 100. Photo © Chip Talbert.

Chip Talbert is a web designer from Chattanooga,

Chip's website (www.chiptalbert.com) showcases his

Tennessee whose interest in photography turned

photography and skills as a web designer. His IR

into a passion when digital photography became a

images are warm-toned, exhibiting classical composi-

reality. His interest in digital infrared developed

tion with technical brilliance. Chip Talbert is clearly a

through the practical need to take appealing pic-

guy who is passionate about IR photography, and it

tures at midday in bright sunlight—the worst time

shows.

of day for visible light photography. Chip quickly discovered the surreal aspects of digital IR landscape and architectural photography and decided to explore this new application further.

60 profile

This image was again shot using a Hoya R72, and was later toned using software. 1/60 second; f/2; ISO 100. Photo © Chip Talbert.

complete guide to digital infrared photography

61

Creating Digital IR Images "There's more to the picture than meets the eye." Neil Young Your camera is in hand, ready to shoot. You know what wavelengths you want to record, and you understand the focus and exposure challenges posed by IR photography. Now let's look at creating digital IR files.

Imaging Sensors Here's a fact you may not know: The imaging sensor in your camera records only in black and white. Let that sink in a minute. Each pixel on a digital camera's i maging chip contains a light-sensitive photodiode that converts light to electrical current in proportion to the quantity of light that falls on it. Photodiodes can't tell the difference between different wavelengths of light, they only react to intensity. The typical way to add color to the digital image is to apply a color fil-

Light is captured by a camera sensor based on its intensity, not its color. This Bayer pattern is an example of a color filter array that allows the camera to interpolate color from this sensor data. The filter pattern alternates green and blue in one row and green and red in the next. The extra green filters allow the processed color file to better resemble human vision.

ter mosaic, using a red-green-blue pattern. There are several ways to do this, but the most common is a filter arranged in what is called a Bayer pattern, which looks like a mosaic of red, green, and blue

sequence of GRGRGR (etc.) alternate with a sequence

squares. Half of the total number of pixels is filtered

of BGBGBG. That's why this output is called sequen-

with green (G), while a quarter of the total is filtered

tial RGB (or sRGB). The camera's processor actually

with red (R), and the other quarter with blue (B), in a

uses the information from the Bayer pattern to inter-

repeating 2x2 arrangement. Rows of color in a

polate the color of all of the pixels.

62 creating digital IR images

In its professional level digital SLR, Fuji uses a Super CCD SR II chip that has two kinds of photo diodes—shadow (S) and highlight (R). The larger S diodes respond to low light, recording shadow detail, while the R diodes capture highlights at lower sensitivity to retain detail. Fuji claims that this effectively expands the dynamic range beyond what can be achieved with conventional CCDs. In addition to CCD sensors, there are other types used in digital cameras. These include CMOS and Foveon sensors, as illustrated here. In a Foveon X3 sensor, photodiodes are embedded in silicon in red, blue, and green layers. This is similar in theory to color film emulsion. The silicon layers absorb different colors at different depths, thus forming the full-color image. Image courtesy of Foveon, Inc.

This is the CMOS (Complementary Metal Oxide Semiconductor) imaging sensor used in Canon's EOS Digital Rebel XT. You can't see the pixels or the RGB filters arranged in a Bayer pattern, but they're in there. Image courtesy of Canon USA.

complete guide to digital infrared photography 63

Recording the Image I prefer to create digital IR images using the camera's built-in black-and-white mode. (We'll shortly consider what to do if your camera does not have a mode for recording black and white). When using the blackand-white mode, you can visually review the blackand-white image on your camera's LCD screen to see if the exposure came close to creating the infrared image you wanted. This is helpful, but even so, the LCD screen may display different brightness and contrast than the actual image, especially with infrared images. You can tell more about your exposure if your camera has a histogram function. The bottom line is this: No matter how close you get to recording your desired image, there is nearly always room for a few simple image-processing steps to tweak that lessthan-perfect image in the computer to make it live up to your infrared expectations.

Open the original infrared image file (above) in your image-processing software and make a duplicate for processing (Image > Duplicate). Remember to save your duplicate as a TIFF file. Open the Levels option (Image > Adjustments > Levels) to reveal a histogram of your image file. The data in the histogram for the photo above ends well before reaching the right axis, signifying that the image is underexposed, a conclusion also confirmed by observing the picture. You can i mprove the distribution of image tones by adjusting

Tweaking Black-and-White Images in Image Processing I believe in using the minimal amount of tweaking necessary to produce that final image. If you work with JPEG files, JPEG compression artifacts will occur every time you reopen them to apply additional enhancements and then save again. However tiny,

the histogram. _ In the Levels dialog box, drag the small white triangle on the right axis until it reaches the last point on the graph that shows data. This will add highlight tones to the image. Similarly, move the small black triangle from the left axis to the right until it reaches the point indicating data. This will add rich darks instead of leaving shadows flat.

these artifacts contribute to reduced image quality. They may not matter if you have a large file that you consider a mere snapshot. But you never know when you will produce your personal digital equivalent of Ansel Adam's "Moonrise, Hernandez, New Mexico," so it's a good idea to start practicing skillful digital darkroom habits now, including the habit of saving your duplicate work-files as TIFFs, which will not introduce artifacts as you continue to open and resave these files. The image above now looks more properly exposed, but it can use additional enhancement. The whites in the trees still aren't as bright as I would like to see them. 64 creating digital IR images

Open

the Brightness/Contrast option

(Adjustments > Brightness/Contrast) and add a dash o' contrast by dragging the Contrast slider to the right. Because dark areas tend to recede and light Open the Curves option (Image > Adjustment > Curves) to make even more subtle and precise adjust-

ones seem to come forward, this enhanced the perception of depth in the photo.

ments to the tonal range of the image file. I moved the Contrast slider up to 14 for this illustration, but there are no "magic numbers." Just season to taste, as Emeril would say. If you click the preview box (check), you can see the effect of the contrast adjustment as you apply them to your image.

Compare the original to this adjusted copy (below). To finalize the image processing, I applied a bit of selective burning (darkening) and dodging (lightening). You can try additional experiments; just know when to quit. I have a "20-minute rule." If the image doesn't look Click the middle of the Curves diagonal and drag up to lighten the image. Conversely, click and drag down to darken the image. As a result of using Curves, the whites are brighter (see above). But the overall image looks flat to me—lacking contrast.

the way I want within twenty minutes, it never will.

From Digital Color IR to Digital B&W IR If you camera doesn't have a black-and-white mode, you have no choice but to shoot in color and convert that image into black and white using your computer's image-processing program. When you shoot IR in color, your sensor will interpret the data as a "color" file, even with filters that block or absorb the color spectrum. So depending on the camera, the filtration, and the IR reflectance of the scene, the camera will generate an image that usually exhibits a blue or magenta cast. Here are some quick and easy ways to turn that glorious magenta image into something a little more dramatic. One of the easiest and simplest methods to create a black-and-white image from the blue or magenta digital IR file is to use the monochrome option usually found in most image-processing programs under the Mode menu.

Here is the original color image file that I downloaded from my converted digial SLR. 1/200 second; f/16; ISO 400.

Make a duplicate TIFF of your blue or magenta IR digital file and select the monochrome or grayscale option in your image-processing software (Image > Mode > Grayscale). 66 creating digital IR images

Convert the image from color to black and white by eliminating the color information. In Adobe Photoshop, you can do this by changing the Mode to Grayscale. When you do so, this dialog box will appear asking if it's OK to discard the color information. Click OK and remove the color.

- Kick up the contrast a bit, especially if the new monochrome file looks flat (a condition that indicates a lack of contrast!). The simplest way to correct this is to use the Brightness/Contrast control (Image > Adjustments > Brightness/Contrast). Gradually move the Contrast slider (a positive number indicates an

The finished image with only two tweaks: The first to remove all color and the second to increase contrast slightly. That may be all you need to do, but if you want to try additional methods for changing from color to black and white, keep reading.

increase in contrast) and observe the effect until you are satisfied, then click OK.

complete guide to digital infrared photography 67

I shot this image with the Fuji S20 Pro's color mode and a Hoya R72 IR filter. 1/6 second, f/2.8, ISO 400.

Channel Mixer dialog window

Mixing Color Channel Many image-processing programs offer an option to produce grayscale images by letting you choose the percentage contribution from each color channel (R, G, or B). This control modifies a targeted output, in this case grayscale, using a mix of the existing image's color channels. A channel mixing application adds or subtracts data from a source channel to the output channel (Gray, when the Monochrome box is checked). This takes a little more work than the previous example, but with practice you can whip through it.

68 creating digital IR images

After opening a duplicate image file, open the channel mixer option (Image > Adjustments > Channel Mixer). Be sure to check the Monochrome box to set Gray as the output channel.

The finished black-and-white IR photograph.

Checking the Monochrome option in the Channel

As is often the case in the world of digital IR photog-

Mixer dialog box will create an image that contains

raphy, there is more than one way to accomplish your

only gray values. Move the sliders to control the

goals. Mixing channels is a popular method to convert

amount of detail and contrast in the image you plan

color IR images to grayscale, but there are others,

to convert to grayscale. But first make sure the

including plug-ins. These alternatives, while offering

Preview box is checked so you can view how changes

less control than mixing color channels, take fewer

in each source channel affect the monochrome image.

steps and are faster. That's why I say they are such

When adjusting the percentages of the source chan-

powerful tools.

nels, you often get the best results when the combined values of the source channels add up to 100%. If you go over 100%, you'll overexpose an image. On the other hand, if you go under 100%, you will underexpose an image.

complete guide to digital infrared photography 69

Open the image file in your image-processing program and create a duplicate TIFF for processing. This original color i mage was shot with a Fuji S20 Pro camera with a Hoya R72 IR filter. 1/6 second, f/2.9, ISO 400.

Plug-ins: Powerful Blackand-White Conversion Tools Add speed to IR conversions by utilizing additional

examine all of the pertinent filters available, but

software programs that make it easier to create

examples of many of the leading products are includ-

practicular special effects. These programs are known

ed in the following chapters.

as plug-ins, and they operate in tandem with your image-processing program. In the same way that an electric screwdriver makes household projects faster than using an old-fashioned hand tool, these powerful software tools let you produce imaging projects quicker and with less fuss than making your way through a number of menu steps.

Among the many filters found in plug-ins that work really well to convert your IR photos to black-andwhite, those in Nik Software's Nik Color Efex product adapt their effects based on the colors and contrast range of each image. The complete edition of Color Efex Pro 2.0 includes three black-and-white conversion filters (the most basic B/W Conversion; B/W

There are plug-ins available from many different pro-

Conversion: Tonal Enhancer with additional contrast

ducers that perform all types of effects, and more are

enhancements; and B/W Conversion Dynamic

coming out all the time. There is no way we can

Contrast). These transform a color image into black

70 creating digital IR images

and white while allowing you to manage the highlights, shadows, and relationship of the original colors by using controls for color spectrum, brightness, and contrast. While all three filters are effective, I like the B/W Conversion: Dynamic Contrast option because it contains a Contrast Enhancer that creates an exaggerated dynamic range within the image.

As a plug-in, Nik Software's Nik Color Efex Pro 2.0 operates as part of your image-processing program (in this case, Adobe Photoshop CS2). The filters in this plug-in are applied to all previous filter processing changes you have made to the image.

For the final image, I only had to move a few sliders in the plug-in's dialog window to produce an excellent IR digital photograph.

complete guide to digital infrared photography 71

This original color image was created with a digital SLR that was converted for IR photography. 1/80 second, f/16, ISO 400.

Everybody has their preferred black-and-white con-

Power Retouche's Black Definition plug-in is a fine

version methods, but my current favorite (and maybe

complement to Black & White Studio. It lets you

the best monochrome plug-in ever) is Black & White

adjust black as if it were a color channel. You can also

Studio from Power Retouche. This sophisticated pro-

find filter plug-ins that add Sepia, Van Dyck,

gram uses the light sensitivity of such films as Kodak

Kallitype, Silver Gelatin, Platinum, Cyanotype, and

Tri-X and T-MAX to make the conversion, or lets you

other tones to your images.

create your own sensitivity curves and save them for later use. This plug-in is compatible with a number of host applications.

72 creating digital IR images

A duplicate TIFF of the original IR color image file was converted to black and white using Black & White Studio. A green digital filter, part of this plug-in, was applied to heighten the IR effect (this will lighten the "greens" based on the plug-in's preset of generic "panchromatic" film emulation). Feel free to experiment with different presets and slider values to see what looks best to you—you can always cancel any effects you don't like.

Like most denizens of the digital darkroom, I'm never satisfied. In this case, I decided to try to add more snap to the image file. This is an example of Power Retouche's Black Definition plug-in, which lets you adjust black and can add extra "pop" to your photo.

Here's the finished IR photograph alter processing through two of Power Retouche's plug-ins for monochrome conversions and enhancement. Could I have toned the final image? Yes, and all of those tips, tricks, and techniques will be covered in a forthcoming chapter.

complete guide to digital infrared photography 73

"Inlet Reflections." Carl was attracted to this IR scene because the willows along the bank gave off a pronounced white glow from the warmth of the setting sun. This panorama, stitched from three overlapping frames, was tweaked with Levels and Curve adjustments and some highlight dodging. Photographed with a Hoya R72 filter; 1 second; f/7.4; ISO 80. Photo © Carl Schofield.

Carl Schofield worked as a research scientist with the

nous green landscape of summer into an ethereal,

Department of Natural Resources from 1960 to 1995 at

wintry-white dreamscape where luminous white

Cornell University where much of his work focused

clouds appear to float in the darkness of deep space

on the impact of acid rain. His long-term interest in

and ghost-like images of trees reflect off inky black

nature and landscape photography dates back to his

waters. Capturing images of this unworldly beauty

teen-age years.

that surrounds us was a moving, almost spiritual experience for me."

Carl describes why he developed a passion for infrared photography: "Beyond red lies the surreal

You can see Carl's IR landscapes on his website at

world of near infrared. Invisible to the unaided

www.schophoto.com.

human eye, but capable of transforming the monoto-

74 profile

"Market Benches" was photographed at the Farmers Market in Ithaca, NY approximately a half hour before sunset. The finished print was created by combining four overlapping frames. The exposure was 1/24 second at f/2.6. A Hoya R72 filter was used to block visible light. Photo © Carl Schofield.

complete guide to digital infrared photography 75

Digital IR Image Processing The last chapter demonstrated some of the software processing that can be used to tweak black-and-white IR images or convert color IR files to grayscale. Once you've recorded a digital IR image to your memory card, you will want

to

use computer software to com-

plete the process of creating an IR photograph. It

is

possible to send the image files from the camera directly to a photofinisher for prints, but there is so much more you can do yourself to enhance your IR i mages and control the final output. And if you want to convert non-IR images to look like infrared photos, image-processing software is a necessity. For a lot of people, the digital darkroom is a fun part of infrared photography. Choosing the right software can be confusing. There are many different products available, from entrylevel programs that offer only a few image-enhancement options to professional-level packages that are extremely sophisticated and powerful. These programs also vary greatly in price, ranging from free downloads to (relatively) inexpensive packages to those costing hundreds of dollars.

76 digital

IR

i mage processing

"Always, always work with a copy of the original file." Farace's Laws of the Computing Universe

This old Pontiac hood ornament was photographed using a Nikon digital SLR with a Wratten #87 filter. The far-out colors in this image are a result of image processing with Adobe Photoshop's Solarize filter. Photo ©Aaron Cathcart.

Scanning: Converting Your Existing I R Film library You'll need a scanner if you want to digitize existing

Some scanners can scan prints, negatives, or slides.

IR film negatives and photographs in your photo

Before deciding on a specific scanner, you will want

li brary. There are two big myths about making great

to research the different types to see what will best

scans: The first is that the process is so difficult that

meet your particular needs.

it is beyond the capabilities of the average person. The second is that it's really easy to make a great

When scanning

scan. Of the two, the second is truer than the first.

choice of processing the image after you've down-

The real secret is to examine all of the scanner soft-

loaded the digitized file, or applying certain pro-

ware's options and make decisions appropriate for

cessing before scanning by using third-party acquisi-

your output.

tion software such as SilverFast from LaserSoft

IR

fil m or prints, you have the

International. SilverFast's Prescan feature lets you For many photographers, a flatbed scanner may be

freely rotate and resize the image before it's

the best solution for converting prints, but if you

acquired. Its ScanPilot option automatically guides

have negatives and transparencies, you might inves-

you step-by-step through the process of making

tigate using a film or slide scanner or have them

individual image corrections. All operations are

scanned by a lab.

done in real time allowing you to see the effect of

The typical slide scanner has a slot in the front panel

any changes you make, and unwanted modifica-

for inserting a slide or a strip of negatives. When the

tions can be undone.

scanner starts working, it grabs the slide and pulls it inside during the scanning process. The features to look for in a film scanner are similar to those you want in a flatbed scanner, but you also should know which film formats it can digitize. If you only shoot 35mm film, you don't need to spend more money for a larger, more expensive scanner that can handle 4 x 5-inch sheet film.

78

digital IR image processing

This house was photographed on black-and-white infrared negative film. The negative was scanned and converted to a positive using Photoshop's Invert command (Image > Adjustments > Invert).

I shot this photo using Kodak's old E-4 process with Ektachrome color infrared film almost 30 years ago, but was able to use a film scanner to digitize the image and bring it into the twenty-first century.

The Layers Function Let's face it, Adobe Photoshop is the 800-pound goril-

No matter what program you choose for digital IR

la of image-processing programs. Do you need the

processing, one of the most helpful features is Layers.

"real thing" or one of the other image-processing pro-

That's because pictures in image-processing programs

grams on the market? Though most of the illustra-

can be composed of many facets. Think of the paper

tions in this book were created with Photoshop CS2,

used for printing in a conventional darkroom. Layers

that doesn't mean you can't use some other program.

are like additional emulsions on the surface of that

There are numerous choices, including such packages

paper that allow you to create effects without interfer-

as Paint Shop Pro from Corel, PhotoImpact from

ing with what is on the other coatings. The Layers

Ulead, Photosop Elements from Adobe, and Picasa

option is a powerful tool that lets you add drama and

from Google. This is far from an exhaustive list, and

dimension in images, and can be found in other pro-

sorting out which one is right for you is a matter of

fessional processing programs as well as Adobe

examining the different programs and analyzing

Photoshop.

your needs. Another way to understand Layers is to imagine an How are you going to use the software? It helps to

i mage that is comprised of stacked sheets of clear

start with a checklist to define your objectives. Your

acetate. Any part of the whole image—text or graph-

long-term goals may be different than your short term

ics, can be placed on a separate sheet anywhere

ones. When it comes to software, by the time you've

within these layers of acetate. In places where there is

gained enough experience to thoroughly make use of

no image on a layer, you will see through it to the lay-

all the features in a program, superior new products

ers below. At the bottom of the stack is a background

may have been introduced. So, focus on your short-

layer. The advantage of using a program's Layer func-

term goals. Do you want to create images for the web

tion is the ability to adjust or change a portion of the

or for sharing family snapshots via email? Do you

completed image without affecting the other parts.

want to order framed enlargements to give as gifts?

This can be as simple as adjusting color or can include

Or perhaps your interest lies in printing your own

more complex enhancements, such as the addition of

fine art and IR photographs to sell at art shows and

a drop shadow.

galleries? Maybe you need to provide professional clients with press-ready images? Determine your needs and budget constraints, then research the different image-processing alternatives to find the best match for you.

The Layers Palette One of the tools in Adobe Photoshop that helps you work and navigate within Layers is the Layers Palette. It features a visible display of all of the layers in an image, starting from the topmost to the background. The Layers Palette is used to create, hide, display, copy, merge, or delete layers from a document.

80 digital IR image processing

You can create new image layers by using the New

This gives you an added dimension of flexibility over

Layer button at the bottom of the Layers Palette, or by

normal Image Layers. Since an Adjustment Layer

choosing the New command from the Layer pull-

affects all layers that are below it in the Layers Palette,

down menu (Layer > New). In addition, a new layer

it allows you to make a single adjustment for an effect

will automatically be created if you drag and paste

on multiple layers. And since an Adjustment Layer is

selections into your image. You can also copy layers

not making permanent changes to the underlying

between two open Photoshop images.

image pixels, it can be modified any number of times without degrading image quality, which permits you to tweak settings and apply several different variations of effects that you can swap and/or turn off as desired. For example, you can create a Levels

Adjustment Layers In addition to basic image layers, there are a couple types of layers that serve different purposes. These are Fill Layers, which allow you to place colors, gradients, or patterns within a layer, and Adjustment Layers. An Adjustment Layer is a powerful option in the Layer arsenal. It allows you to apply tonal and color corrections to any or all of the layers underneath it. These have the same Opacity and Mode options as Image Layers. By default, Adjustment Layers have Layer Masks that are indicated by the mask icon ( white rectangle) to the right of the layer thumbnail. A Layer Mask is like a veil on top of a layer that lets you hide (or show) and edit selected portions of the layer. You are able to look at different combinations of these edits to see how the layers react with one another. When you achieve the desired result on-screen, you can merge the adjusted layers. Photoshop's Adjustment Layers feature lets you perform color adjustments without affecting the original image data, allowing you to experiment with different adjustments, such as Levels, Curves, Hue/Saturation, Brightness/Contrast, Color Balance, and other options. Adjustment Layers can be hidden or discarded at any time, or moved up and down in the Layers Palette.

Adjustment Layer and use it to temporarily change the distribution of tones in your image, and then go back to readjust Levels at any time during processing by going to the Layers Palette and double-clicking the icon for the Levels Adjustment Layer. You can do the same with any of the other kinds of Adjustment Layers you create for your image file.

This black-and-white infrared picture came right out of my converted Canon EOS digital SLR. It looks pretty nice, but we can have some fun using Adjustment Layers to change the look of this photo. 1/50 second; f/16; ISO 400.

Creating Your Own Adjustment Layers Step 1:

As always, open an image and make a dupli-

The New Layer window for creating a Levels Adjustment layer.

cate. If you only want to edit a section of the image, you can select the appropriate portion using any of Photoshop's selection tools.

Go to Photoshop's Layer pull-down menu and select New Adjustment Layer. You will then have a choice between different types of Adjustment Layers. In this example, a Levels Adjustment Layer is selected, which opens a window to create and name a new layer.

82 digital

IR

i mage processing

The Levels dialog window with histogram allows you to adjust the brightness and contrast of your image.

Click OK in the New Layer window for

The Photo Filter Adjustment layer simulates the use of a filter placed in front of your lens. Among other things, it adjusts color balance, white balance, or hue of your picture.

You can quit here or add more layers.

Levels and a histogram appears. You can use the slid-

Another type of Adjustment layer is called Photo

ers under the graph to adjust the intensity of shad-

Filter. Its dialog window contains a number of fil-

ows, midtones, and highlights. When you are satis-

ter effects as well as the option to choose custom

fied with your Levels adjustments, apply by clicking

colors from the color picker. Just for fun, let's add

OK again. You can tweak this image as many times as

a Sepia tone from the Filters pull-down menu.

you wish throughout the processing by double-click-

The Density slider lets you apply the filter in

ing the icon for this Adjustment Layer in the Layers

exactly the strength you prefer.

Palette and moving the sliders to different positions. The final IR image was

created using two

Adjustment Layers. First, brightness and contrast were adjusted using a Levels layer. Then a sepia tone was applied using a Photo Filter layer. When you are sure you are done processing, flatten the image if you want to print (Layer > Flatten Image). This also decreases the file size, using less memory.

Popular IR Image Effects There are a number of ways to use Layers and other digital tools to enhance your IR images. Your program will contain a number of processing choices, and you can get additional pieces of software such as plug-ins and Actions (more about Actions later in this chapter) to apply many types of practical and cool effects. (Remember that we took a look at blackand-white conversion plug-ins in the last chapter, but those programs have a wide variety of uses in the digital darkroom and can be used for additional effects, some of which are described in the following sections.)

84 digital IR image processing

Toning Toning is one way to give your IR images a little color. In the traditional darkroom, toning is a chemical process used to modify the color of black-and-white photographic prints. Different toners produce different colors in the final traditional print, and you can even choose to tone some parts of a print more than others. A fun way to use Layers for infrared photographs is to reproduce a classic darkroom technique in which different toners are applied to different parts of the image. This is called split toning. It can be a messy and tedious procedure in the darkroom, but with image-processing software, it's a snap. Let me show You can quickly turn this monochrome IR image into an interesting split tone picture in just a few steps by using a couple different plug-ins with your image-processing program.

you what I mean.

Dpen the original photograph and create a duplicate file for processing. The duplicate becomes your Background layer.

Using PowerRetouche's Toned Photos Photoshop-compatible plug-in, tone the new layer as a Cyanotype (which is a blue traditional process). The Toned Photos filter plug-in offers a number of choices that mimic the appearance of old photographic process or toners, including the Cyanotype used here, as well as Sepia, Silver Gelatin, Platinum, Kallitype, Palladium, and Silver, among others.

Make your first choice about split toning. This

example shows a Brown Tone layer added to

the Background layer using a plug-in called PhotoKit from Pixel Genius. Using the Eraser tool, erase everything on the Brown Tone layer except the farmhouse and silo. This leaves just the silo and farmhouse from the Brown Tone layer on top of the grayscale photograph.

!Select the Background layer in the Layers Palette and create a duplicate of it (Layer > Duplicate Layer).

Step 5:

Perhaps the blue is too blue for your taste. You

can always lower the Cyanotype layer's opacity using the Opacity Setting in the upper right corner of the Layers Palette. This will adjust the effect that the toner has on the image by letting more of the grayscale image show through to soften the look.

We're Done! The final image consists of three layers, including a grayscale background, sepia buildings, and a blue tone underlay to create a split tone image without any muss or fuss. This is a fun and relatively painless way to create sophisticated images that you may want to print and frame.

If One Tone is Good, Why Not More? A duotone is a form of printing that uses two colors of

working with an RGB image, you must first convert it

ink, one of which is often black. Duotones were devel-

to 8-bit Grayscale (Image > Mode > 8-Bits/Channel;

oped in the printing process as a method of expand-

Image > Mode > Grayscale) before you get to the

ing a grayscale image's tonal range, allowing repro-

Duotone menu. (Image > Mode > Duotone.)

duction of subtle colors. Make a selection in the dialog window from the In Photoshop, you can use more than 150 preset duo-

Duotone, Tritone, or Quadtone menu, then pick the

tones, tritones (black ink and two other colors), and

specific colors to make up your new image.

quadtones (black ink and three other colors). When

I drive by this house every day and hardly ever notice it, but in IR it's a whole new ball game. Even though it was a cloudy day, there was enough IR being reflected to create this successful study. As nice as this photo is, it might look even better as a duotone, so lets give it a try.

Here is the image processed as a Mauve duotone. At this point I usually convert the file back to RGB (Image > Mode > RGB Color) to save it (the color will not be affected). If you leave as a Grayscale Duotone, fewer of Photoshop's tools will be available for tweaking later. In this case, I brightened the white a bit using the Levels (Image > Adjustments > Levels) command.

As a green, black, and white tritone, the picture of the house has a completely different mood that I like. And that's really the point of applying duotones, tritones, and quadtones to your digital images. Just because an image is monochrome, doesn't mean you can't add some color to it.

Painterly Effects Photographers have been applying what many have

view window will show a portion of the image. Use

dubbed "painterly" effects to their images since the

the plus and minus buttons in the lower left-hand cor-

Pictorialist movement at the turn of the 20th Century.

ner of the Filter Gallery interface to zoom in and out

Digital IR photographers, who are no strangers to this

of the scene to see the effects of your slider gymnas-

desire to create artistic effects, often use image-pro-

tics. Don't worry about clicking OK to apply an effect.

cessing software to add elements such as a hand-

If you determine you went overboard, use the Edit >

drawn or a pastel look to their pictures.

Fade Filter Gallery command to diminish the effect until you get something you like better.

To begin, look at the program you are using to see what types of artistic effects it offers. For example, built into Adobe Photoshop are many different filters that let you apply these types of enhancements. When you select the Artistic menu in the Filter pull-down, you'll find 15 different effects, such as Colored Pencil, Neon Glow, and Watercolor. But these aren't the only choices. Be sure to check out the eight filters for Brush Strokes (Filter > Brush Strokes) and the 14 effects that can be found under the Filter > Sketch menu. All of these selections are collected under Filter > Filter Gallery, giving you a 37 filters that you can apply to your images. These artistic filters usually work best on photos that have a strong, simple composition. When you choose any one of these effects, a dialog window appears that lets you control the degree to which various aspects of the filter is applied. Don't be timid when making these judgments; move the sliders to the extreme ends of their scales and see what happens. A resizable pre-

Creating Digital Art Yes, you guessed it! Open a duplicate of your original image.

Open Photoshop's Filter Gallery (Filter > Filter Gallery). In this case I opened the Artistic folder to select the Watercolor filter. While Watercolor might seem an unlikely choice to use with a monochrome IR image, its softness counters the typical hard edges associated with digital infrared images. This filter gives you control of brush detail, shadow intensity, and texture using three slider's.

This tree was shot in Colorado using a Canon EOS digital SLR converted to IR use. 1/40 second: f/16; ISO 400.

Photoshop's Filter Gallery contains a number of filters within several different folders, including Artistic, Brush Strokes, Distort, Sketch, Stylize, and Texture. Don't be afraid to try these different effects to see what happens. You can always undo them if you don't like the result.

Do you like the more layered look of this image after the Watercolor filter has been applied?

For the final image, I took my own advice and played with the sliders at extreme ends of their ranges. Ultimately I returned to settings that were close to Photoshop's defaults.

Don't be afraid to try other effects and see what you like. I applied the Dry Brush filter (Artistic folder) to the original, adding a snowy effect to a photograph that was shot on a sunny summer day.

"Pine Needles, September 2003." This photograph was taken in the Gatineau Hills of Quebec, just across the river from Ottawa. Even though this was shot on a cloudy day, Rob was able to capture this cool image with a Hoya R72 filter and his Nikon digital SLR. 20 seconds; f/16; ISO 1600; Exposure compensation of +3.3 stops. Photo © Robert Williams.

Robert Williams is a professional photographer, based

Nature Canada, Canadian Camera, and MacLean's maga-

in Ottawa, Canada where he specializes in natural

zine, and have been used by various nature conserva-

and urban landscapes. In addition to IR photography,

tion organizations.

Rob is interested in making abstractions from his photographs because he can bend the 'photographic

Rob uses a Nikon digital SLR with a Hoya R72 filter.

rules' to try new ideas and techniques. He notes that

He has found digital IR photography a great benefit

digital cameras and computers are great tools for cre-

in terms of ease and convenience over using IR film.

ating abstract photos because he can attempt so many

His website (www.robwilliams.ca) shows a large

of these ideas, keeping what works and discarding

number of his photos in several different galleries, as

what doesn't without wasting film.

well as articles and essays about his work. Also included is a portfolio of digital infrared photographs

Rob's work is characterized by the use of strong color

along with explanations about how he took each one

and design elements that show his interest of the out-

of them.

doors. His photographs have been published in

I started with this photo, shot in black-and-white mode using a Leica Digilux 2 with a Cokin IR filter. 2 seconds; f/2; ISO 400.

Here, I tried solarization, aka The Sabattier Effect. This interface from Nik Software's Nik Color Efex Pro 2.0 Solarization: Black and White Photoshop plug-in is easy to understand and use. for this image, all sliders were at the default settings.

Solarization or the Sabattier Effect Another of the filters found in Nik Software's Color

ization is the reversal of a portion of an image result-

Effects Pro 2.0 plug-in is called Solarization: Black and

ing from prolonged exposure to bright light and was

White. In traditional photography, solarizaton, more

first noted in overexposed daguerreotypes. Man Ray

accurately referred to as the Sabattier effect, is one of

created some prints using the Sabattier effect, called

the oldest darkroom tricks in the book and works

them "solarized", and the rest, as they say, is history.

especially well with strong graphic IR images. It was first discovered in 1857 when some photographers graphic plate to light, then continuing development to

Woodcut Effect

completion, would cause a reversal of tones, render-

Let me show you an etching! Andromeda Software's

ing all or part of the negative image as a positive. The

Cutline Filter produces images that resemble engrav-

Sabattier effect is not true solarization, which is an

ings and woodcuts. You can get a number of different

entirely different reversal phenomenon. Classic solar-

looks from a single original picture.

noted that exposing a partially developed photo-

Andromeda's Cutline Filter has four built-in screens and tools for positioning and adjusting directional screen lines.

Color me Escher. I used the default settings in Andromeda Software's Cutline Filter to create this engraved effect.

complete guide to digital infrared photography 97

Hand Coloring In Adobe Photoshop you can simulate the popular hand-coloring techniques of the mid twentieth century, only now you can apply the color much more quickly, and you have a near endless range of color choices from which to choose. But if you make a mis-

Make sure to select the option for Color in the Mode pull-down.

take, you can fix it immediately by using the History Palette (Window > History) to go back to the point before you made the mistake. Even after you are fin-

Desaturate your image. If your original is a

ished with your masterpiece, you can still return to fix

RAIN tile, like the example of the Buick (left) move

a mistake or change a color by deleting a color layer

the Saturation slider in your RAW converter to its

and adding a new one.

minimum setting. If your file is a JPEG, use the pulldown menu in your image-processing program (Image > Adjustments > Desaturate). Do not convert your image to Grayscale; you must leave it as an RGB or CMYK file. If you are interested in giving your picture an extra touch, you could add a slight tone (for example, sepia) to the image before applying your coloring, (Image > Adjustments > Photo Filter) or (Layer > New Adjustment Layer > Photo Filter).

Here's the key to hand-coloring a picture: Add a Color Layer (Layer > New > Layer), then select Color from the Mode pull-down in the Color Layer menu. This gorgeous old Buick was shot as an IR RAW file. Once we give it a little selective coloring, it is going to look even more beautiful and unusual.

Once you add a Color Layer, you will paint on it instead of on the Background. If you try to do this same technique with a standard

You guessed it! Open a duplicate image of your original.

layer, you will cover all the detail in that area over which you paint. Select an airbrush from the Tool Bar. You can use the bracket keys on your keyboard to make the brush smaller (left bracket) or larger (right bracket). I picked a color by clicking on the Foreground/Background color squares at the bottom of the tool bqr. This causes a color picker window to appear.

98 digital IR image processing

You can fine-tune the chosen color by reducing the Opacity of the Color layer and by adjusting the Colors in Color Balance (Image > Adjustments > Color Balance).

You can keep adding additional layers—one for each different color. When you decide you are done, save the file as a From the Layers Palette you can adjust the color with the opacity slide at the top of the palette.

PSD to keep the layers seperate for future manipulation. But Flatten (Layer>Flatten Image) the layers and save a TIFF for printing.

Coloring can definitely add sparkle and a unique flavor to your photographs. Enhance just a selected portion of your image to focus emphasis on the most important aspects of your composition.

complete guide to digital infrared photography 99

This IR black and white was photographed with a Canon digital SLR modified for IR photography. 1/200 second; f/22; ISO 800.

I applied Blue Steel Action found in the Fashionizer set from Craig's Actions to add color to my IR photo. Like most Actions, Blue Steel is a one-click application. Press the button and watch it happen.

Actions and Artistic Options Another useful and fun feature of Adobe Photoshop is

The Actions Palette lets users record a sequence of

called Actions, a collection of short scripts that trigger

editing steps as an "Action" that can be saved, then

a sequence of image-processing steps that can be

utilized again at a future time. An Action can be

applied to IR or non-IR photo files. With a single click

applied to a selection in an image, another image file,

you can use Actions to deliver a variety of different

or—in a batch operation—to hundreds of different

coloring and artistic effects.

image files. You can create and save your own Actions, get them from friends, or download them from the Internet. Some are provided by Adobe on their Photoshop CD-ROM in the "Goodies" folder.

I used an oil painting Action to get a soft yellow look, then a snowy Action to turn the summer into winter. Both of these Actions are free to download from the Adobe Studio Exchange website, which has over 10,000 files for you to explore.

Actions are not applications, plug-ins, or even filters;

It can be useful to share Actions with other photogra-

they are simply a series of instructions that direct

phers. The sharing process is made easier by the fact

Photoshop to produce a desired effect. They are easy to

that Actions are completely cross-platform. If you cre-

use and can be customize based on how you apply them.

ate an Action in your Mac OS, anyone using the Windows version of Photoshop can load and apply

The Actions Palette is your key to creating and using

your original Action to their images. In either Mac

Actions. To open it, go to Window > Actions once your

OS or Windows, Actions typically use an ".ATN"

image is open in Photoshop. The Palette drops down

file extension.

showing a list of available Actions. To apply, highlight an Action from the list and click the triangle icon (Play selection) at the bottom of the Palette. Voila!

Creative Edges

onOne Software PhotoFrame

One of the hottest trends in digital images is a photo-

This Photoshop-compatible plug-in provides a huge

graph with irregular, ragged, or artistic edges. Even

assortment of frame and border effects. The program

National Geographic has used soft-edged photo-

lets you enhance your images by adding a variety of

graphs to illustrate a story or two. With image-pro-

special effects to their edges, including drop shadows,

cessing software, it's not difficult to produce these

inner and outer glows, bevels, textures, blur, noise,

kinds of effects.

opacity, and blends that can allow you to customize and save these special edge effects you've created. It is

Here are some reasons you might want to try adding

available for Mac OS and Windows and you can down-

creative edges to your own photographs:

load a demo copy that includes several frame samples.

• Photographs with irregular edges add variety to your portfolio by providing visual relief from straightedged vertical and horizontal rectangular shapes. • The edges of images with white backgrounds or light colored corners tend to disappear from the final print. A creative frame adds a decorative border to the photograph, giving the finished image a more clearly perceived edge. • Instead of cropping to clean-up distracting elements, you can use creative edges to hide minor compositional flaws while adding a touch of panache at the same time. • Creative edges can add an artistic touch to an image that might otherwise appear too literal. • Playing with creative-edge effects is fun.

Let's look at onOne Software PhotoFrame to see how to create edges and frames to enhance your IR photos. This picture was shot with a digital SLR converted for IR photography. 1/200 second; f/22; ISO 800.

102 digital IR image processing

The interface for PhotoFrame includes a large, resizable real-time preview window along with dockable palettes that let you maximize monitor space. The editing environment includes multiple Undo/Redo, a pop-up navigator, eyedropper color extractor, background processing, zoom, pop-up tool tips, and vertical pop-up sliders.

PhotoFrame not only works with the 1000 frame files found on the program's CD-ROM, but you can also build your own custom frames and edges from scratch or by adapting existing frames.

You can even use onOne Software PhotoFrame to add a little color to your monochrome image. This frame is one of five frames that simulate transparent or translucent tape so it looks as though your photo is taped to a background surface.

complete guide to digital infrared photography 103

Photo/Graphic Edges Auto F/X is the company that first made creativeedge effects popular with digital photographers. Initially, they supplied CDs with files for graphic edges that you applied to your images using Adobe Photoshop's tools and commands. While the process was not difficult, some users found it too complicated, so Auto F/X quickly developed a plug-in that made the job much easier. Photo/Graphic Edges can add torn, ripped, deckled, feathered, painted, film frames, and darkroom-styled edges to any grayscale or color image. The latest package contains four visual-effect modules: Edges, Montage, Vignette, and Frames; each module gives you complete control over the edges of your pictures and also lets you apply surface grain, lighting, shading, matte, or colored backgrounds. The latest version features such effects as Traditional, Darkroom, Painted, Etched Scratchboard, Darkroom Transfers, and much more. Included in the package are more than 10,000 edges as well as hundreds of color frames and texture effects. Using any of these software tools can be fun. Just open an image and experiment with all of the program's features. Don't worry about making mistakes; there are no mistakes when producing edge effects, just use common sense and good taste. After a while, you'll feel like you want to add edge effects to all of your images, but don't do it. A true maestro of traditional darkroom techniques, the late Edward L. Bafford, warned me that you should have somebody standing nearby with a wooden two-by-four to "knock you upside the head" if you got too carried away with any one particular technique. Use creative edge techniques sparingly and only with images that will be enhanced by the effect, otherwise they will loose their special quality

104 digital IR image processing

Photo/Graphic Edges includes 1000 matte textures and 200 lighting tiles to give you a custom look and a seemingly infinite combination of effects. This program is delivered as both a plug-in and as a standalone application for Mac OS or Windows.

By playing with some of the possibilities in Photo/Graphic Edges, I created this montage-style frame.

Digital Noise Finally, noise is an additional factor to keep in mind as you attempt to optimize the quality of your digital IR photos. Not only do all digital cameras add sensor noise to images, but noise is also caused by image processing and file compression. Like film grain, sensor noise is more noticeable at high ISOs in areas of uniform color, such as skies and shadows. There are many software packages that help reduce the appearance of digital noise. Following is a short list of products from the many I have tested, in order of my personal preference. Keep in mind that your camera and the kind of images you make may be different than mine, so download a free demo version of each product and try it yourself.

complete guide to digital infrared photography 105

• Noise Reduction Pro This is the first tool I reach for to reduce high ISO noise, sensor color noise, JPEG artifacts, and color fringing. Unlike the less expensive non-Pro version, it features separate controls for luminance (brightness) and color noise. It is not the strongest grain removal product available, but its application avoids the mushy look that some noise reduction solutions produce. Download the 30-day demo versions of both Pro and non-Pro versions of the plug-ins and try each.

• Grain Surgery Grain Surgery reduces digital noise, film grain from scanned images, JPEG compression artifacts, and will even remove halftone patterns from scans. The interface provides easy access to all settings, a wonderfully useful split-screen comparison window, and allows you to save your settings and reload them later for similar image files. It even lets you add grain from built-in samples of your favorite grainy film.

• Digital GEM Professional Eastman Kodak's Austin Development Center offers this plug-in that also supports 16-bit images. The Clarity control in its dialog window lets you customize the effects by providing additional sharpening or softening to the overall image, while a Radius slider controls the pixels surrounding the area affected by the sharpening/softening. A Noise Preview Screen shows the actual image noise/grain that's affected by your setting choices.

106 digital IR image processing

• Noise Ninja Noise Ninja is available either as a standalone application or a plug-in for Photoshop, which is the way I like to use it. It uses a proprietary type of wavelet analysis that doesn't introduce artifacts, such as ringing or blurring edges. To refine its noise-reduction capabilities, it applies camera profiles that are offerec free on its website.

• Noiseware This program removes high and low ISO noise, JPEG compression artifacts, and moire patterns, and is available as a Photoshop-compatible plug-in or standalone application. It contains a 'self-learning' algorithm to collect data about your camera or scanner that allows it to continuously improve the processing every time you run an image through it: The more you use Noiseware. the better the results.

Eric Cheng was one of the pioneers of near infrared

Though the camera that took the pictures above had

digital photography with consumer cameras. He has

the hot mirror removed, Eric points out that shooting

been taking digital infrared photographs since 1998,

infrared with digital cameras can be as easy as attach-

and has written extensively about the technique in a

ing a visible-light blocking filter to the front of the

number of publications, including PEI magazine,

lens. A good first filter to try is the Wratten #89B. He

Digital Photo FX magazine, DigitalFOTO magazine. He

says, "You should be able to capture images in

has also contributed to the books The Future of

infrared after you securely attach the filter to the front

Memories and The Advanced Digital Photographer's

of your camera and shoot with flash turned off. Using

Workbook.

a tripod is essential, because your camera will almost certainly be shooting at low shutter speeds!"

Eric used the same camera for this image with an exposure of 1/119the of a second at f/4.9 with an ISO 100. Adobe Photoshop was used to convert the image to black & white and selectively soft-focus (Gaussian blur, sharpening, and masking) the skin areas to simulate the haloing of infrared film. Photo © Eric Cheng.

Eric is also a professional underwater photographer, and is the editor of Wetpixel.com, an award-winning website and online community dedicated to digital underwater photography. More about Eric can be leaned from his personal website: http://echeng.com

complete guide to digital infrared photography 109

Creating Infrared Effects "My true program is summed up in one word: life. I expect to photograph anything suggested by that word which appeals to me." Edward Weston

110 creating infrared effects

Powerful Plug-ins for Conversion to IR You've read about shooting IR images with either an

We've already examined a number of different uses

IR-converted camera or a conventional digital camera

for plug-ins. Just as they were compared to power

using IR filters, and how to enhance those pictures

tools when converting digital color IR images to black

using image-processing software. But what if your

and white, they are also available to create faux IR

digital camera does not have very good IR capability?

images from conventional photos.

Or what about that large library of non-IR digital shots you already have? Some would make great

For example, an assortment of filters in the Exposure

infrared images with a bit of digital darkroom magic,

plug-in from Alien Skin Software allows you to recre-

wouldn't they? Don't worry; you can use digital tech-

ate the specific look of particular film stock. This

nology to create the infrared look with non-IR photos.

plug-in allows you to replicate the look of such IR films as Ilford 200SFX, Kodak HIE, and Konica 750.

The Pebble Beach golf course was photographed in visible light using a conventional digital photo point-and-shoot camera. This i mage is comprised of five separate photos, which were stitched together using the PhotoMerge feature in Adobe Photoshop. Finally, a transformation to faux infrared was created with Nik Software's Nik Color Efex Pro 2.0.

complete guide to digital infrared photography 111

There are two infrared conversion filters in Nik Software's Nik Color Efex Pro 2.0 package that are also designed to imitate the look of photos shot on infrared films: Infrared: Black and White and Infrared: Color. The Infrared: Black and White filter can be used to create stunning landscapes, with dark skies, bright white clouds, and glowing white vegetation. This filter also produces excellent results on a wide variety of other subjects, from portraits to travel photographs. The Infrared: Color filter produces images with interesting color shifts.

You can't see them all in this illustration, but there are four choices for effects in the pop-up menu for Nik Software's Infrared: Black and White filter. This one created the effect I liked best. Try them all before clicking OK.

While this photo of a gazebo and lake was rather unspectacular, I thought it could be transformed in the computer. 1/200 second; f/11; ISO 200.

The monochrome rendition and the shimmering white in the grass and tree help simplify and strengthen this composition.

112 creating infrared effects

A color digital photo made at the Colorado Railroad Museum.1/125 second; f/8; ISO 80.

No foliage? No problem. That's the time to create some fauxcolor digital infrared. Again, this is an example of an image created with Nik Software's Infrared: Color.

Another simple alternative is to take a conventional digital color image and convert it to look like infrared using a different plug-in, Silver Oxide's Silver IR filter. Based on the photo's spectral signature, an indication of the IR reflectance contained in different components of the scene, Silver IR uses a proprietary algorithm to separate parts of the image and create an IR simulation.

This digital image was shot with a Fuji Finepix 3800 digital zoom camera. What would those leaves and sky look like in IR? 1/100 second; f/8; ISO 100.

I used the default setting to produce this result. Now I know what those leaves and sky look like in IR.

114 creating infrared

effects

The interface to Silver Oxide's SilverIR filter may look complicated at first, but it is not difficult to figure out. This filter will create an "infrared image" from a standard color digital file.

This 1931 Ford Model A station wagon is not your typical subject for infrared photography, but I wonder what it might look like in IR. Don't let anybody kid you; there are no specific subjects you should or should not photograph in infrared. Let your interests be your guide. 1/500 second; f/3.5; ISO 125.

True-Pro-Converter from AboutDigicam is a single Photoshop-compatible plug-in that provides a number of digital conversions, turning color files to black and white, sepia, and infrared. It also lets you emulate Fuji's Velvia film, normal or saturated, as well as color infrared. The upside of this clever product is that it is relatively inexpensive. The downside is that it is only available for Microsoft Windows. Sorry, Macheads.

One of the joys of using a versatile plug-in is simply clicking a button to preview a number of possible effects. AboutDigicam's True-Pro-Converter will easily convert a digital image to enhanced color, monochrome, IR color, or IR black and white. When I saw how cool the Woody looked as an IR shot, I knew it had to appear in this book.

A psychedelic woody sounds like something Janis Joplin might have sung about in the sixties, but here it is today as a faux color infrared thanks to True-Pro-Converter's set for conversion to color infrared. The picture is pretty enough to frame, so I added a digital frame with AboutDigicam's free Photoshop Action.

complete guide to digital infrared photography 115

Not So Pseudo-Infrared Color This photo looks like it may be a faux infrared image, but don't be fooled. By now we know that color IR i mage files shot with a filtered or converted camera produce magenta images that have to be converted to black and white to get the look you want—or do they? That may well be true when shooting in a highly intense IR-filled environment, but what happens when that isn't the case? This photo is one result, and I like the softer look. It was shot in the soft light of my north-facing kitchen with a Canon EOS digital SLR converted for IR. It may not be crisp, but the colors you see are exactly as the file was recorded on the memory card. Model Tia Stoneman's auburn hair translated in-camera into a very cool blue. ( Handheld; 1/13 second; f/16; ISO 400.) If there is any message here, it's that you should always experiment! Don't take what anybody, including me, says as the absolute truth unless you try it yourself. There are too many variables in digital IR photography for it to be "my way or the highway."

116 creating infrared effects

Using Actions Remember Actions from the last chapter? Well,

Although Actions can be used to apply creative

they can also be applied to non-IR images. Go to the

effects, they are not filters and don't have to be treat-

Windows pull-down and click Actions to see the

ed like filters. Some pundits recommend that you

Actions Palette. A list view of available Actions

store them in a folder or directory and load them as

will appear.

you need them. I don't think that's a good idea. One

You can create and edit Actions by using the New Action command, found in the pull-down selections by clicking the right-facing triangle in the upper right corner of the Palette, or at the bottom of the Palette by clicking the page icon with the corner turned up ( Create new action).

of the main attractions of Actions is that they are a convenient way to accomplish tasks. Since the Actions Palette is scrollable, I think you should keep all of your favorite Actions stored there ready for use. The trick is not to blindly accumulate Actions, but to explore and test to find ones that fit the way you work. If you uncover a marginal Action, store it in an

You can take a different view of the Actions Palette by

"Inactive Actions" folder (or send to the trashcan, if

checking Button Mode in the pull-down activated by

you wish).

the upper right triangle. When Button Mode is selected, you will see a check mark next to it and you can now click a button to play back any actions you may have created. While in either Button Mode or List view, new

Since most Actions take less than 10K, you don't have to be worried about download time (or hard disk space). There are not as many Action websites as there are those dedicated to plug-ins, but a few sites combine Actions and plug-ins. One source for pre-record-

Actions can be added to the palette by selecting Load

ed Actions on the internet is Adobe Studio Exchange.

Actions from the pull-down menu. This command

This well-produced site has a section that lists all of

brings up the standard Open dialog window, allowing you to select and load your new .ATN file. When a

its Actions available for free download, showing a

sample image of what the effect looks like.

new Action file is added to the palette, it is placed at the bottom of the scrolling list. If you want to move an Action, switch into List view and click and drag it to wherever you want.

complete guide to digital infrared photography 117

This scenic image was originally shot on Kodak Ektachrome film with a Nikon FM2 camera. It was digitized using a film scanner.

The B&W Infrared Action that is part of the Film & Grain Fx Simulator Action set by das bosun is found on Adobe's Studio Exchange website. It imitates the look of Kodak's High Speed Infrared ( HIE) black-and-white negative film exposed with a red filter.

118 creating infrared effects

Film & Grain Fx Simulator by das bosun

Black and White Infrared Film by Rozilynn

This is a set of Photoshop Actions, found in Adobe's

This is another Action from Adobe's Studio Exchange

Studio Exchange Resource Center, that emulates film

Resource Center that imitates the look of black-and-

and printing techniques. It simulates contemporary as

white infrared film. It works best on images contain-

well as historic film processing and printing tech-

ing foliage, but the author suggests that you "try it on

niques, including cross processing, infrared (color and

anything; you never know what you'll get. It's not the

black and white), cyanotypes, litho prints, and many

same as regular black and white, it's a lot contrastier,

more. These actions are not recommended for images

and has a dreamy effect."

embedded with ProPhoto RGB color space or other similar wide gamut color spaces, but they work great with sRGB & Adobe 1998 files.

complete guide to digital infrared photography 119

Craig ' s Actions This is a suite of commercially available Actions that includes InfraRedders, found in Craig's Storytellers One product. With Actions for a number of IR effects, including custom effects for portraits and "ExtraStrong," you always have control over the look you want to achieve and the ability to modify it at any time. Craig's Actions offers sets for black-and-white as well as color IR.

Craig offers an excellent set of actions for black-and-white infrared (above) plus the best color IR Action I have ever tried (as demonstrated to the right).

120 creating infrared effects

complete guide to digital infrared photography

121

Cross Processing Back in the old days of film, one very neat way to get

Cross processing can be emulated in digital photogra-

special effects was to use a technique called cross pro-

phy using image-processing software. One method for

cessing. This could produce a result that was often

digital cross processing that creates really good results

similar to color infrared film photography. It was easy

has been developed by Danny Ngan. His technique

to do, required no filters or special handling, and

aims to produce a dramatic film-based look while keep-

looked cool.

ing the process as simple as possible.

Processing negative film in transparency chemistry is

In Adobe Photoshop, use Adjustment Layers so it is

called C-41 to E-6 cross processing, while processing

easier to adjust the settings to get an effect that you

transparency film in negative chemistry is called E-6

like. This control also allows you to apply different

to C-41. The C-41 to E-6 cross process causes high-

variations and the ability to judge their effect by turn-

lights to shift to a warm, peach color, while the shad-

ing them on and off.

ows take on a blue cast. The E-6 to C-41 cross process creates a contrasty image, with blue highlights and detail fringes.

This is an example of the faux-color IR effect you can achieve with true chemical cross processing. The house was shot on color negative film but developed with E-6 chemicals for color slide film. It's not always easy these days to find a photo lab that can do this for you.

122 creating infrared effects

This conventional color photograph was shot with a Canon EOS digital camera. Use it as a basis for comparing the faux or pseudo IR effects demonstrated in this chapter. 1/180 second; f/9.5; ISO 100.

The dialog window for creating a Curves Adjustment Layer. Click OK to see the Curves dialog window appear.

Step 1 With a copy of the source image open, start by creating a Curves Adjustment Layer. This can be done from the menu bar (Layer > New Adjustment Layer > Curves), or you can use the Create Adjustment Layer button at the bottom of the Layers Palette (it's a black and white circle icon.) Name the new Curves Adjustment Layer if you wish and click OK.

complete guide to digital infrared photography 123

Step 2: When the Curves

dialog window opens, choose RGB from Channel options at the top of the box. Then click on the grid to create a point that can then be used to adjust Curves. A curve shape similar to the illustration above works well, reducing the darker tones and increasing the lighter tones to produce more dramatic lighting. But don't be afraid to experiment. With the Preview box checked, you can adjust the shape of the graph while watching the effect on the image. You can always click the Cancel button and try Step 3: Adjust the individual (Red, Green, and Blue) color

again if you don't like the way your adjustments look

channels in the Curves dialog window by selecting your desired channel in the pull-down menu at the top of the box. For the Red channel, increase the contrast, making the shadows darker while keeping some red visible in the picture.

124 creating infrared

effects

Step 4: For the Green channel, keep most of the dark tones where they are, but brighten the midtones and reduce the lighter tones to add a more green-yellowish tint to the image.

Step 6: Add a Hue/Saturation Adjustment Layer. The resulting dialog window contains slider controls and a pull-down menu for making adjustments. These options let you adjust not only the hue and saturation, Step 5: Adjust the Blue channel, then apply the changes for the Curves Adjustment Layer by clicking OK. If you like the results, you can save settings made for all the

but also the brightness of either the complete master or a specific color component of an image. Play with the Saturation slider to add some punch. Bam!

color channels in the Curves dialog window for use on another image. complete guide to digital infrared photography 125

Cross Processed? Maybe not in the "official" sense, but this method definitely produces a color infrared effect. How does this stick-shift method of moving step-by-step compare to using an automatic power tool? You'll soon find out.

Do Your Curves Look Like Mine? For your particular photographs, the curves in the dia-

high key (lighter tones) image. You can see Dan

log windows may look different than my examples,

Ngan's process using a low-key (darker tones) image

depending on the source image's colors. But the pri-

file at his blog site listed in the back of this book. The

mary goals in this faux cross-processing method are to

bottom line: Experiment with different combinations

increase contrast, create dynamic colors, and add a

of adjustments to get a look that's pleasing to you.

slight tint to the overall image. This was a relatively

126 creating infrared effects

The E-6 to C-41 cross-processing plug-in from Nik Software may produce an image that is less refined than Danny Ngan's technique, for instance lacking a bit of glow and yellow tone. But the plug-in is fast. The loss of subtlety is the price you pay for speed.

This is cross processing in the opposite direction, using Nik Software's Cross Processing: C-41 to E-6. Clearly this process yields its own type of look.

Cross-Processing Plug-ins The preceeding method is fine for those who want

One package that is very effective is Nik Color Efex

precise control over each step of the cross-processing

Pro 2 from Nik Software. This set of Photoshop-com-

procedure. But there are plug-ins for this technique

patible plug-ins offers both E-6 to C-41 and C-41 to E6

that give you results much more quickly.

cross processing effects.

complete guide to digital infrared photography 127

Reggie Linsao started his career as a nature pho-

then graduated to creating a custom white balance he

tographer. He has found digital infrared IR "to

uses for his IR photography: "I was all set up with my

be the perfect complement in the digital age."

Canon Poweshot G3 and took the photo of the water-

He continually asks himself how a subject would

fall below with the IR filter on, and used that photo as

look if shot in IR, and that's a question you

my custom white balance setting. I metered off of the

should continually ask yourself, as well.

bands of water in that picture, which interestingly enough were actually a yellowish-brownish color to

While Reggie appreciates the black skies and

begin with. My custom white balance will give con-

white trees found in black-and-white IR, as a

sistent results, but I've also discovered that the angle

nature photographer he loves color. These exam-

of the sun to your subject can influence the intensity

ples of his work show how he incorporates color

of the colors."

into his IR photographs. Visit Reggie's website to find IR photographs and artiWhen he began shooting IR, Reggie experiment-

cles about his observations and techniques:

ed with the white balance settings in his camera,

www.boomslice.com

"Watermane" was one of Reggie's first successful white balance experiments. In addition to the color, note the reflection at the top of the falls compared to the swirling water below. This one was also photographed using a Hoya infrared R72 filter. The exposure was 13 seconds at f/5; no ISO was recorded. Photo © Reggie Linsao.

128 profile

"Triad" captures the detail of the bare branches against a warm sky. Reggie does not recommend shooting into the sun, but in this case it adds drama. He used a tripod-mounted Canon PowerShot advanced compact zoom digital camera with a Hoya infrared R72 filter. 5 seconds; f/3.2. No ISO was recorded. Photo © Reggie Linsao.

complete guide to digital infrared photography 129

Printing IR Images with Ink Jet Printers ".. the

picture-taking process...is an intuitive thing. You can't go out and logically plan a picture, but when you come back, reason then takes over and verifies or rejects whatever you've done. So that's why I say that reason and intuition are not in conflict—they strengthen each other." Wynn Bullock. Ansel Adams, who was also a pianist, often compared

while others are not. The choices made when printing,

photography to music. He felt the act of shooting a

whether through experience or inexperience, deter-

photograph was akin to the production of the musical

mine the final result.

score, but the finished print was its performance. Nowadays it is more than likely that a print will be digital than silver-based.

room" means no more working in the dark with fin-

Inks and Papers

gers soaking in smelly, maybe dangerous, chemicals

We all know how today's photorealistic ink

while waiting for results to appear on dripping wet

jet printers and papers work together, don't

paper. This is not to demean traditional darkroom

we? All you have to do is stick some paper

methods; there is nothing more luminescent than a

in the printer, tell your image-processing

platinum or palladium contact print made from a

program to print photo-quality output, and

properly exposed large-format negative. Printing

the results are always perfect. Right?

Printing photographic images in your desktop "dark-

using digital technology is simply the latest link in a chain that started when Louis Jacques Mande

Printing is simple if you use Canon paper

Daguerre placed a silver coated copper plate in mer-

with a Canon printer, or Epson media in an

cury vapors and watched an image appear.

Epson printer. The driver software from such printers is matched to their own brand

Some photographic purists may scoff at digital print-

of paper, so there are few surprises when

ing, claiming that images created using computer

you see the output.

technology are not permanent, but the truth is that while some traditional photographic prints may be

But what happens if you use different

processed to assure permanence, many are not. In

media with your brand-name printer? The

comparison, some digital prints are produced using

printed results may not look great. So

inks and papers that will create an archival print,

here's a little primer on printers.

130 printing IR images with ink jet printers

All ink jet printers spray ink through nozzles, or jets,

The amount of ink that exits the print head is meas-

onto paper. The technology used to print images falls

ured by its droplet size. In general, the smaller the

into two general categories:

size, the better the image quality. Ink droplets are measured in picoliters, which are one million mil-

• Micro Piezo: Much like a tiny Super Soaker, the

lionth of a liter! Printer resolution is rated in dots per

micro piezo print head, used primarily in Epson

inch, or dpi. A 720 dpi device prints 518,400 dots of

printers, squirts ink through nozzles using mechanical

ink in one square inch (720 x 720). The greater the

pressure. Depending on the amount of current

number of dots, the higher the printing resolution. Be

applied, the print head changes shape to regulate the

careful not to confuse these specifications with image

amount of ink released.

resolution—they are two different things!

• Thermal: In this system used by Canon, HewlettPackard, Lexmark, and others, ink in the print head is heated to its boiling point so it expands before it is forced through the print head's nozzles and onto the paper. There are variations in how each company accomplishes this, but you get the idea.

Photo © Carl Schofield

complete guide to digital infrared photography 131

Printing Your Photos

Portfolios

One of the first things digital photographers usually

One advantage of making digital prints for this type

want to do after shooting an image is to print it.

of use is the ability to update and customize each

Printing is one area where technical advances have

portfolio that you send out. Having a good ink jet

freed us from most of the restrictions of the traditional

printer lets photographers print high-quality portfolio

darkroom. For most photographers the intended use

images up to 13 x 19 inches (33 x 48 cm).

of prints is along the classic line of the three "P's"— proofs, prints, and portfolios.

Proofing

Managing Accurate Color

Digital color printing got its start as a proofing device

The revolution in color ink jet technology forever

for making a quick approval print for a client before

changed the nature of desktop printing. For less than

producing separations. Many photographers still use

$100, inexpensive printers from companies such as

their desktop printers for this purpose. A paper proof

Canon, Epson, HP, and Lexmark, let you produce

printed on relatively inexpensive but high quality dig-

photographic-quality output, but there is a price to be

ital media provides insurance that the final 4-color

paid for this capability: Excellence becomes the

process print will look the way it is supposed to look.

accepted standard. As color printers have become bet-

Making a paper proof is also a good idea when send-

ter and better (and cheaper too), end users have

ing a digital file to a client or service bureau so the

begun to demand more from them: Not just higher

recipient knows what the finished image should look

resolution, but more accurate color. This quest has

like. I made proof sheets of all of the images for this

engendered an endless cycle of printer improvements,

book to give the separator an idea of how the picture

all developed to achieve color nirvana.

should look when printed. Before arriving at the destination of accurate color, there are many roadblocks that must be overcome, including price. Somewhere along the way, you are

Printing

going to have to stop and ask yourself this question:

The papers and inks used by the latest ink jet printers

"How much am I willing to pay for accurate color?"

generally produce prints that last as long as a lab-

Your answer determines which of the many soft-

made print. For most applications, the people receiv-

ware and hardware solutions are appropriate for

ing the prints don't even ask if they're "digital"

your situation.

because they look just like "real" photographs.

132 printing IR images with ink jet printers

Lord Kelvin and the Temperature of Light In the nineteenth century, Lord Kelvin, an Englishman, proposed a temperature scale suitable for measuring low temperatures. He suggested that an absolute zero temperature should be the basis for his scale. Lord Kelvin's idea was to eliminate the use of negative values when measuring low temperatures with either the Fahrenheit or Celsius scales. In honor of his contributions, this system is called the Kelvin scale and uses the unit "Kelvin" (sometimes written as K). The color temperature emitted by light sources is measured on this scale. The sun on a clear day at noon measures 5500 Kelvin. On an overcast day, the color temperature of light rises to 6700 K, while 9000 K is often what you'll experience in open shade on a clear day. These higher color temperatures are at the cool, or blue, end of the spectrum. Light sources with lower Kelvin temperatures are on the warmer end of the spectrum. Lights used by videographers or photoflood lights usually have a Kelvin temperature of 3200. Household light bulbs measure about 2600 K. A sunrise may be well down on the The color temperature of Ott-Lite's VisionSaver Plus table lamp is 5100-5300 K. It is designed to simulate natural daylight indoors. Photo courtesy of Ott-Lite Technology.

Kelvin scale—at about 1800 K. So what's my point? Well, in this case, just that you should consider the color temperature of the light source when viewing prints.

There are a few obstacles standing in the way of

ronmental factors, including monitor glare and the

obtaining an exact color match between what you see

color of the light source you are using when viewing

on the monitor and what your printer will deliver.

the print. While light may appear white to our eyes, it

The most fundamental difference involves the fact

actually comes in many hues.

that a computer terminal displays an image by transmitted light. This is similar to viewing a slide on a light box: Light is coming from behind the image. When looking at a print, you are seeing it by reflected light. And this difference can be exacerbated by envicomplete guide to digital infrared photography 133

Monitor Calibration If you go into any professional photographic lab or a

Very often somebody asks me: "Why don't my prints

commercial printer, you'll find a special area set aside

look like what I see on my screen?" The answer,

for viewing output. This area will have test prints

Brutus, lies not in the stars, but in color management.

posted and will have lighting fully corrected for daylight. If it looks good in the viewing area, it'll look good anywhere. Most computer users can't afford the kind of viewing boxes professional labs have, but OttLite sells affordable accessory lamps that can bring color-correct viewing to your desktop printer. They offer a family of modestly priced VisonSaver lights that you can place near your printer to help you see

Once you're aware of the effects that different lighting has on output, you need to bring the separate elements of your computer system into color harmony. Actually, your software and printer "think" the monitor is displaying something that resembles the print. The key is in knowing what the color of your image is to begin with.

color properly. Ott-Lite's 13-watt Portable lamp, for

Color management begins with your monitor,

example, should fit into anybody's workspace.

whether it is an LCD or a CRT display. The first step is to use Adobe's Gamma software, included with recent versions of Photoshop and Photoshop Elements. The Gamma Control Panel lets you calibrate your monitor's contrast and brightness, gamma ( midtones), color balance, and white point. One way to work with Gamma includes a step-by-step wizard approach. Another, with more detailed information for setting Gamma, can be found in Adobe's on-line technical guides. The settings you obtain by working with the Gamma control panel are used to create a profile for your monitor, which can be used by color management systems such as ColorSync for the Mac OS and Microsoft's ICM for Windows. With Adobe's Gamma, you have to make calibration judgments based on charts that the software displays on your monitor. In other words, you "eyeball" it, which means the display can vary based on a number of factors, including current lighting conditions.

Adobe Gamma can calibrate and characterize your monitor: Calibrating brings it into compliance with a standard; characterizing creates a profile that describes how the monitor is reproducing color.

Remember to calibrate your monitor on a regular basis. Colors change as the monitor ages. While Gamma isn't perfect, it will get you into the ballpark. The better the color match between your monitor and prints, the pickier you may become in narrowing remaining differences. The secret in pursuing the quest is not to hunt until the color dragon is slain, but until you are satisfied with the match between monitor and print.

134 printing IR images with ink jet printers

Monaco Systems offers a device called an Optix XR colorimeter to help calibrate your LCD or CRT display. Photo courtesy of X-Rite Photo Marketing.

There are a number of products you can purchase separately that use hardware devices to measure the color display with more accuracy than you can with your eyes. These include the OPTIX XR from Monaco by X-Rite, Eye-One Display from Gretag Macbeth, and Colorvision's Spyder2. These colorimeters can assist you in calibrating virtually any computer monitor and will produce International Color Consortium (ICC) profiles for Mac OS and Windows color management systems.

This ColorVision Spyder2 is a device that attaches to your LCD or CRT monitor, the way you may already have stuck a stuffed Garfield there. When used with ColorVision's software, such as PhotoCal or OptiCal, it's relatively simple to calibrate your monitor. Photo courtesy of Datacolor.com.

complete guide to digital infrared photography 135

Color Spaces

Output Solutions

Another important task is to make sure your image-

You may find after you've tried one of these monitor

processing program's color settings or color spaces are

calibration methods that, while your on-screen image

appropriate (Photoshop > Color Settings). The

and output have become a much closer match, they

defaults may be fine, but not every photographer has

are not quite the same. (Don't forget differences in

the same requirements. If you're unsure about set-

reflective and transmitted light. In my own case, after

tings, you can contact a computer consultant or ask a

using Adobe Gamma and one of the color manage-

friend in your camera club what setting he or she uses.

ment systems, the result was that output from my printers looked better than it did on screen.)

The only selection I change is the Working Space. I keep it set at Adobe RGB because that color space was

If you're still not happy with your prints, it's time to

designed for printing with CMYK inks and includes a

look at output profiling. A profile is a file that tells

wider range of colors (gamut) than sRGB (which was

your monitor (or any other device) to associate a

developed to match a typical computer monitor's

number based on specifications created by the

color space and is the default for software on the

International Color Consortium (ICC) with a meas-

Windows platform). sRGB is also the color space

ured color. When your computer communicates color

tucked inside most digital cameras, though some give

information, it transmits this numerical data and spec-

you a choice of sRGB or Adobe RGB. Check your

ifies how those numbers should appear. Color man-

instruction manual for more information.

agement software takes this profile into consideration and adjusts the device accordingly. There are two kinds of people in this world of desktop darkrooms: Those who need output profiles and those who don't. When using ink jet or even laser out-

puts as a proofing medium, prepress users know output profiling is critical. Photographers using ink jet output as the final product have different needs from prepress users—all they generally need is for the prints to match their monitor or their original vision of how the image should appear—what Ansel Adams called previsualization Monaco EZcolor builds ICC monitor, scanner, and printer profiles that produce accurate and consistent color across devices and paper types. A wizard-like If you use Photoshop, try the default settings to see if they work for you and make any changes based on experience.

interface guides users through the entire profiling process. X-Rite also packages a color management system that includes MonacoPROOF software and X-Rite's Digital Swatchbook spectrophotometer. Digital Swatchbook works with Macintosh or

136

printing I R i mages with ink jet printers

Baby Can I Drive Your Printer? After connecting your printer to a computer, you need to install software that lets the two devices communicate. This is called "driver" software because it drives the printer and makes it work. With Mac OS computers, I prefer to insert the driver software CD-ROM, and then double-click the icon to make it work. With Microsoft Windows computers I've found the most prudent way to install printer drivers is by connecting the printer and restarting the computer. This will cause Windows' Plug-and-Play feature to recognize that a new device is connected and will guide you through the process of installing the driver. While more experienced computer-users may feel they can just install the hardware, then install the software, I've often found that when working with some printers, not using Windows' feature for plug-and-play installation can create problems with partially installed software. This is more trouble to fix than simply letting Windows guide you through the installation in the first place.

Windows computers using measured spectropho-

'our scanner, Profiler RGB compares your image with

tometer readings for color managing desktop comput-

he original file and creates a unique profile for a spe-

ers. MonacoPROOF builds custom ICC profiles to let

ific paper/ink/printer combination.

you obtain accurate color from scanners, digital cameras, monitors, printers, and even color copiers. The

f you're serious about color management, you might

software has an interface that guides users through

vant to check out another ColorVision product.

the profiling process and displays on-screen images

)octorPro software lets you edit RGB and CMYK

accurately to produce "soft" proofs. Some ink jet

printer files and uses Photoshop's capabilities to cre-

printers bundle a copy of Monaco EZcolor Lite that

te adjustment scripts for editing output profiles,

lets you create a single monitor profile for your system.

including color cast removal, opening shadows, corecting color mismatches, as well as adjusting bright-

A great companion to ColorVision's Spyder2 is their

Less, saturation, and contrast.

Profiler software, which color-manages desktop printers. ColorVision provides target files that you output on your printer. After you digitize that output with complete guide to digital infrared photography 137

onOne Software Intellihance Pro offers many image enhancement capabilities, including multiple preview panes and test strips that function similarly to a darkroom test strip. Its digital test proof shows what the image looks like with user-specified increments of additional cyan, yellow, and magenta, or red, blue, and green, so you can see how much of what color to add in the printer driver to get a print that matches your creative vision. This plug-in is available for either Mac OS or Windows, and you can download trial versions from the onOne Software website. Check out all of these possibilities with an eye toward affordability as well as compatibility with your system and workflow.

Intellihance Pro has a feature that functions much like a traditional darkroom test strip.

138

printing I R images with ink jet printers

Ink on Paper Four-color ink jet printers have the same cyan, yellow,

Because of these differences, selecting the paper type

magenta, and black (C, Y, M, K) color process used by

in the printer driver is a critical step in achieving the

commercial printing presses. To reproduce delicate

best possible output. Each type of paper shown in the

colors and textures such as skin tones and metallic

printer software driver has different characteristics

surfaces, six color printers usually add light cyan and

and different ink saturation. Thus, if you select the

light magenta. Some Epson printers use seven or eight

wrong paper—either by accident or on purpose—

colors, adding a light black, red, and/or gloss opti-

you'll get poor results.

mizers for more depth and better monochrome reproduction. There is a trend to keep adding more colors. Most desktop ink jet printers use one or two ink cartridges, but professional ink jet printers typically have a separate cartridge for each color, something Canon originally popularized for desktop photo printers.

So Waddaya Do to Get the Best Results? • Read the paper's instruction sheets. Find out which driver settings are compatible with the paper and

Not all ink jet printers have the same ink formula-

what settings should produce the best results.

tions. Some companies use pigmented-based inks for their black ink cartridge and dye-based inks in their

• Not every paper and ink combination works togeth-

color cartridges, while others use all dye-based inks or

er perfectly. Before making a big investment in

all pigmented inks. Why do you care? Pigment inks

papers, purchase a sampler pack or small quantity of

last longer but are not as vibrant; dye based inks are

a paper and make prints with your own test files

colorful but have less longevity. On plain paper, dye

( more on how to do this later). Write notes about the

and pigmented inks mix easily because of this medi-

settings and paper on the back of the prints and put

um's high ink absorption rate. But when printing on

them away in a file for future reference.

coated stock, such as photo paper, printers with different types of inks turn off the black ink. (Black in the output then becomes a composite of the CMY inks.) Pigmented black ink is slightly better than dye-based ink for printing sharp, dense, black text on plain paper, and some manufacturers prioritize black text over photo quality. Epson's UltraChrome inks, used in some desktop and large format printers, are water resistant and provide bright colors that are similar to dye-based inks, while retaining pigmented ink's lightfastness.

Printer manufacturers claim you get the best printing and longest lasting results when using OEM (Original Equipment Manufacturer) ink. There are less expensive generic inks available, but using them will usually void your printer's warranty. I advise digital imagers who want to work with archival, grayscale, or generic ink sets to use separate printers. You may want to shop for a great value on a discontinued printer to use for your everyday work. Then you can experiment with it to your heart's content with whatever bargain, recycled, or home-brewed ink you want.

complete guide to digital infrared photography 139

Rick Sammon is the host of two TV shows on the Do It Yourself (DIY) cable/satellite network: Photography Workshop and Digital Photography Workshop. He has appeared on every major morning show and hosted episodes of the Canon "Photo Safari," on the Outdoor Life Network. Show locales include Galapagos, Belize, Botswana, and Thailand. On these programs, Rick teaches celebrities how to take better pictures. His former students include Maria Conchita Alonzo, Dana Delany, John O'Hurley, and Kelly Packard. Rick is the author of 22 books and he has written more than 1,000 articles on photography, travel, wildlife, and conservation. Since 1990 he has been the photography columnist for the Associated Press—a column that garners about 10 million readers a week. Rick also writes 12 travel features for the Associated Press each year. All of these make Rick the most frequently published photographer/writer in the world. He also teaches at some of the most prestigious photo workshops in the country: Maine Photographic Workshop and Palm Beach Photo Workshop. In addition, Rick teaches workshops for Popular Photography and Imaging magazines. These workshops (more than 20 in the past 5 years) have taken him to China, Costa Rica, and throughout the United States. A member of the Explorers Club, Rick has documented cultures in Brazil, Nepal, India, Cuba, Thailand, Indonesia, Papua New Guinea, and Costa Rica. Rick's website, loaded with photos and information, can be found at www.ricksammon.com

140 profile

Here's a perfect example of the clarity and even tonality that a digital IR file offers over grainy film IR. This RAW file was made using an IR-converted Canon EOS digital SLR. 1/30 second; f/22; ISO 200. Photo ©Rick Sammon.

complete guide to digital infrared photography

141

Black and White in Color One of the biggest challenges is making black-andwhite or monochromatic prints with IR image files. This can be a problem with ink jet printers because the monochrome prints they produce may be cool or warm-toned (not neutral). With printers that use pigmented inks, metamerism (repeated banding) often rears its colorful ugly head. You can always print using the option for black ink only, and I have successfully produced prints this way, but the results may vary based on the characteristics of the original image. To get truly continuous tone black-and-white prints, you need a grayscale inkset. These inksets and complimentary software are available from companies

With its full range of inks and Epson papers, the Epson R2400 produced a deliciously warm print of this monochrome IR image file, which I like. However, if you don't care for the warmth, you can use the Advanced section of the printer's driver to select "Black and White Printing." In this case, only the printer's three black inks will be used and the resulting prints will be as neutral as Switzerland.

Printing Challenges

such as Media Street and Lyson. These companies

Sometimes it seems that different people can get dif-

offer archival quality inks that when used with

ferent results from the same photographic file printed

acid-free paper produce museum-quality giclee

with the same model ink jet printer on the same

images, which can be sold in art galleries

paper. How is this possible? It is because one of these

anywhere in the world. (See my note on page 139

photographers is getting the most out of the printer's

about printer warranties.)

driver, while the others are just clicking the "Print" button. I get questioned all the time by people who

Printer manufacturers including Epson and HP have

ask why the prints made with my printer look differ-

started offering printers that will print monochrome

ent from those that they're making with the same

i mages using additional black ink cartridges. Epson

brand and model of ink jet printer.

currently offers a printer with a maximum print size of 13 x 19 inches (33 x 48 cm). It is delivered with nine

Here's some advice on a few steps you can take to

inks, including user-interchangeable Photo Black and

improve print quality before even starting to work

Matte Black cartridges. With an expanded inkset,

with your printer's software:

which includes black, light black, and light-light black inks, the Epson R2400 when properly set produces beautiful black and white prints that should last up to 200 years, and color prints that are fade-resistant for up to 108 years.

142 printing IR images with ink jet printers

• Download the latest printer driver. Don't assume that just because you unpacked a brand new printer you'll have the latest driver. Oh contraire, mon frère . It may be that some bugs have been fixed or support

Check your printer manufacturer's website periodically to see if there are driver updates.

has been added for new kinds of paper. Take the time to go to your printer manufacturer's website and download the most current driver, then install it. • Clean the printer heads! Many times when photographers show me ink jet prints and ask what's wrong with them, the answer is simply that the heads are clogged. How do heads get dirty? If the printer is left on and not used regularly, air gets into the heads and clogs the ink. Make sure you have the printer turned OFF unless you plan to use it. Plus, print heads get dirty or clogged from not being used, so try to use them every day. But mostly ink jet print heads get dirty because that's what they do.

Until somebody invents a self-cleaning head for ink jet printers, you'll have to clean the heads periodically, wasting precious Dom Perignon-priced ink in the process. Hey, we used to scrub ovens by hand too; now self-cleaning ovens make that chore a cinch. So maybe somebody will figure out something similar for ink jet printers.

• Read the instruction manual. If you do this before

in any "good" paper and making a print. Some new

you make your first print, you'll discover there are

printers run two head alignment tests, one for black

often several utilities that will help your printer pro-

ink, the other for color. When you run these tests, it's

duce the best possible results. With new Epson ink jet

a good idea to evaluate the output using a high-quali-

printers, it's always a good idea to run both the Head

ty magnifying loupe so that the feedback you provide

Alignment and Nozzle Check utilities before putting

the utility is as accurate as possible. complete guide to digital infrared photography 143

Get to Know Your Printer Driver Some printers have built-in calibration routines that

No matter what brand of printer you use, its driver

set up the device after you've made your initial con-

software has a number of controls that allow you to

nections. With most computer systems, these will like-

print on different kinds of paper, usually those offered

ly happen when the printer driver is installed, but

by the printer manufacturer. While you can use soft-

you may also need to recalibrate it from time to time.

ware such as ColorVision's Profiler RGB to precisely calibrate a specific kind of paper for your printer, the driver itself provides controls that let you fine tune the color, density, and contrast of your output. I liken these controls to manually tweaking a color enlarger in a traditional darkroom. Printer drivers do more than just direct your computer to send data to the printer. In most cases, the drivers let you specify information about the kind of paper you're using and how you want the finished print to appear. You can simply pick the kind of paper you're using, click the "Automatic" button, set the slider to "Quality" and you'll usually get a pretty

HP's PhotoSmart Toolbox software, that's bundled with their printers, lets you perform an automated series of diagnostics and corrections, and when completed it prints a test page.

good print, but it may not be the best possible print. Just as you sometimes need to take your camera off automatic mode and apply your photographic knowledge and experience, you may want to take manual control over the digital printing process. With most drivers, you can tweak the brightness or contrast settings as well as the color balance to get better results. Also, before making a print, take a look at the advanced settings that are available in the driver.

Many ink jet printers' drivers allow full manual control of brightness, contrast, saturation, and color. But before you work with these controls, it's a good idea to create a personal test-print file.

144 printing IR images with ink jet printers

Inkjet Art Solutions' website contains several different test files. The one I use is the PhotoDisc test file that contains many difficult-to-print colors and skin tones, plus a grayscale target, as well. Photo courtesy of Inkjet Art Solutions.

printer look good, the output can be compromised if the paper used is either the best or cheapest available. In this kind of setting, there are too many variables present to use these prints in comparing one printer to another. The key to comparing results from different printers or papers is to create a standardized test file and use it. I have established two separate files that I use as standards to test new printers, inks, and papers. One is the PhotoDisc target that can be downloaded from Inkjet Art Solutions. The other is an image that I created with a digital SLR and contains reference colors such as

Making a Personal Test Print

skies, neutral grays, and skin tones. Whenever I get a new printer, new inks, or a new paper type, I run test

Some ink jet printers automatically output a test page

prints to see if any adjustments are needed in the printer

shortly after you connect to the computer and install

driver or software color settings to produce the desired

the driver. While these pages may tell you that the

results.

printer is actually working, you may want more information than that. One of the best ways to discover your

Your personal test file should reflect your typical image,

printer's capabilities is to create and print a "personal"

such as an IR landscape. Use your favorite image-

test print.

processing program to save the photograph in a highresolution format such as TIFF. Instead of making the

Comparing test prints is one of the best ways to eval-

image 8 x 10 inches (20 x 25 cm), keep it around 5 x 7

uate different printers as well as different types of

inches (13 x 18 cm). This will make the file size smaller

paper. I'm not talking about the kind of test prints seen

and it will take less time to print. The file should then be

in computer and electronics stores where you press a

saved on some kind of portable media, such as

button and output rolls from the printer. While these

recordable CD/DVD, so it can be used in the future for

files are usually optimized to make the

testing new printers, inks, or papers.

complete guide to digital infrared photography 145

Start by printing the test image on your own printer,

Agfa, Ilford, and Kodak papers and would try to fit my

but you might also ask a friend if you can output it on

choice of paper to the image. Now I keep papers from

their printer so you both can run the test to compare

Epson, Media Street, Moab Paper, and others on hand,

results. Use the test print with the printer driver's

using the same concept of matching paper to the

advanced settings and experiment with the slider set-

image's mood.

tings for brightness or contrast. Then take a look at color bias. Monochrome prints will clearly show color

I like glossy shiny papers such as Epson Premium

shifts attributable to the paper, inks, or printer

Glossy Photo Paper and Konica's Professional Glossy

because color shifts will be more apparent with a

QP for photographs of automobiles and other shiny

grayscale image. Working with your customized test

machines. Portraits look fabulous on Moab's Kayenta

file will let you know what driver settings will pro-

matte paper, but don't be bound by these dictums.

duce results you like and can also be a big help when

Adorama offers a true heavyweight paper that's dou-

evaluating different paper types or brands. After a lit-

ble-sided matte and perfect for presentations and

tle testing, you'll find the paper and settings that will

portfolios. Complementing their double-sided matte is

produce the optimum quality output from your printer.

a double-sided matte gloss and a royal satin, which has a fine "pearl" surface.

Keep these test prints in a folder or some other type of dark storage for future reference. Write technical

Experimenting with different kinds of papers with

information on the back of the print, including what

interesting textures and ink absorption characteristics

paper and ink were used, printer's settings, printer

can be fun, but judging from the questions I get during

model, and the date print was made.

workshops, this is often where fun goes out of the process. The stock answer to keeping this from getting troublesome is that you should create a custom profile that is printer, ink, and paper specific. Many photographers who are new to working digitally don't want the

Ink Jet Papers The ink jet paper you use can have a dramatic effect on the quality of your print. Printer manufacturers often insist that the best results will be produced by using their papers, and this advice often does give spectacular prints. But we wouldn't be photographers if we weren't looking for something different, would we? When working in a traditional darkroom, I used

hassle. But some forward-thinking paper companies are taking steps to put the creativity back into printing by producing generic profiles for each of their papers with different kinds of ink jet printers. I used to go to the art supply store to find papers with interesting textures, but now papermakers are offering interesting surfaces. While the safest way to get the best possible results is to use the inks and papers produced by the printer manufacturer, it isn't always the way to the most exciting print. If you are still not satisfied with your prints, before running off to try other inks and papers,

146

printing IR images with ink jet printers

make sure that the printer itself is capable of pro-

•

Allow prints to dry for at least fifteen minutes

viding the best possible results. It may not be. If your

before stacking them. Place a sheet of plain paper (I use

friends and colleagues are getting better results

copier paper) between the individual prints when

than you, the place to start trying to improve is the

stacking. Allow a full day for prints to dry before

printer driver. Only after you've first optimized the

removing the separator sheets. And don't force-dry

printer to produce the best possible results

prints with a hair dryer.

should you start looking for ways to improve your printer output.

•

Keep prints away from sources of ozone. This includes such things as computer monitors, television, air cleaners, or high voltage electricity. Don't store prints, or digital paper for that matter, where they will be exposed to chemicals such as in a traditional darkroom.

Long Lasting Prints • The best way to ensure a print's longevity is to take

Use acid-free archival sleeves when storing prints in photo albums.

a few simple steps: •

Finally, visit Wilhelm Research's website (www.

• Allow prints to dry for twenty-four hours before

wilhelm-research.com) often. This site is regularly

framing them. Avoid framing when humidity is

updated with information on the stability and

high because condensation can form behind the

longevity of new inks and papers.

glass. Don't hang prints in direct sunlight or display prints outdoors.

complete guide to digital infrared photography 147

Profiles In Infrared: Steve and Aaron Cathcart Steve and Aaron Cathcart (www.cathcartphoto.com)

clients. The photos have a dream-like quality that can-

are a father and son who have been photographing

not be totally duplicated, no matter how much creative

weddings in the Estes Park, Colorado area for more

work is applied to an image in Photoshop.

than ten years. Steve is a second-generation photographer, which makes his son Aaron a third-generation photographer.

Aaron also shoots IR at certain weddings, especially if a composition includes foliage. Some brides specifically ask for infrared photos and love the results. Aaron

The idea of shooting infrared appealed to Aaron, so

acknowledges that one key to IR success "is to shoot lots

he bought an IR filter for his Nikon digital SLR and

of photos and bracket. But," he adds with jokingly, "I

started to experiment. He enjoys shooting IR in the

don't want to give away all my secrets."

Colorado mountains, and since most people are not familiar with infrared photography, his unusual-looking landscapes are something different to show to his

Photo ©Aaron Cathcart

148

profile

Both of these IR images were shot by Aaron Cathcart in Estes Park, Colorado using a Nikon D1X with a Wratten #87 filter. In the photo above, some of the trees in the foreground are deciduous and are rendered in white, while the trees in the background are evergreens that reflect very little IR. The sky lacks the dark tones shown in Aaron's other image here (see left), showing how differently IR photography will interpret a scene based on its content of IR wavelengths. Photo ©Aaron Cathcart.

complete guide to digital infrared photography 149

WEBSITE RESOURCES

Dedicated IR Cameras and Camera Conversion Hutech Astronomical Products (www.sciencecenter. net/hutech/irphoto/ir.htm)

Sensor/Camera Cleaning

IR Guy (www.irdigital.net)

Intelligent Mobile Solutions UK (www.intemos.com)

LDP (www.maxmax.com)

Photographic Solutions (www.photosol.com)

Life Pixel (www.lifepixel.com)

Visible Dust (www.visibledust.com)

Infrared Filters

IR Information, Resources and General Photographic Sites

Cokin (www.cokin.com)

Blue Pixel (www.bluepixel.net)

Eastman Kodak Company (www.kodak.com)

Digital Infrared Resource Page (folk. uio.no/gisle/photo/ir.html)

Heliopan (www.hpmarketingcorp.com) Hoya (www.hoyaoptics.com)

Lee (leefilters.com) Schneider Optics (B+W) (www.schneideroptics.com) Singh Ray (www.singh-ray.com) Tiffen (www.tiffen.com)

Digital Photography For What It's Worth (www. dpfwiw.com/ir.htm) Digital Photography Review (www.dpreview.com)

Electronic Photo Imaging (www.epi-centre.com) Thom Hogan (www.bythom.com/infrared.htm)

Imaging Resource (www.imaging-resource.com) Lensmate On Line (www.lensmateonline.com) Luminous Landscape (www.luminous-landscape.com) Macintosh Maintenance & Diagnostics (www. macmdcare.com)

150

website resources

Willem-Jan Markerink (www.al.nl/phomepag/ markerink/mainpage.htm)

Display: Calibration, Color Management, and Scanning Products

Megapixel (www.megapixel.net)

GretagMacbeth (www.gretagmacbeth.com)

PC Photo Magazine (www.pcphotomag.com)

DisplayMate Technologies (www.displaymate.com)

Ken Rockwell (www.kenrockwell.com/tech/ir.htm)

ColorVision Datacolor (www.colorvision.com)

Rocky Mountain Film Lab (www. rockymountainfilm.com)

International Color Consortium (ICC) (www.color.org)

Steve's Digicams (www.steves-digicams.com) Vivid

Monaco by X-Rite (www.xritephoto.com)

Light Photography (www.vividlight.com)

Inkjet Art Solutions (www.inkjetart.com/custom)

Wilhelm Imaging Research (www.wilhelmresearch.com)

LaserSoft Imaging (www.silverfast.com)

Wet Pixel (www.wetpixel.com)

Ott-Lite Technology (www.ottlite.com)

A n d r z e j W r o t n i a k (www.wrotniak.net/photo/infrared)

Inkjet Printing Eastman

Image-Processing Software Products About Digicam (http://aboutdigicam.com) Adobe Studio Exchange (http://share.studio.adobe.com) Adobe Systems (www.adobe.com)

Kodak Company (www.kodak.com)

Canon (www.canon.com) Dell (www.dell.com) Epson (www.epson.com) Hewlitt-Packard Development (www.hp.com) Lexmark International (www.lexmark.com)

Alien Skin Software (www.alienskin.com) Andromeda Software (www.andromeda.com) ArcSoft (www.arcsoft.com) Auto FX Software (www.autofx.com) Corel (www.corel.com) Craig's Actions (www.craigsactions.com) Eastman Kodak Company Austin Development Center (www.asf.com) Flaming Pear Software (www.flamingpear.com) Imagenomic (www.imagenomic.com) The Imaging Factory (www.theimagingfactory.com) Fred Miranda (www.fredmiranda.com) Nik Software

(www.niksoftware.com) on One Software (www.

Contributors Aaron Cathcart (www.cathcartphoto.com) Eric

Cheng

(littp://echeng.com)

Brody Dezember (www.dezemberphoto.com) Reggie Linsao (www.boomslice.com) Danny Ngan (www.dannyngan.com) Paul Nuber (www.pozim.com) Rick Sommon (www.ricksammon.com) Carl Schofield (www.schophoto.com) Chip Talbert (www.chiptalbert.com) Robert Williams (www.robwilliams.ca)

ononesoftware.com) PictureCode (www.picturecode. com) Pixel Genius (www.pixelgenius.com) Power Retouche (www.powerretouche.com) Silver Oxide (www.silveroxide.com) Ulead Systems (www.ulead.com) Visual Infinity (www.visinf.com)

complete guide to digital infrared photography 151

Glossary aberration: An optical flaw in a lens that causes the image to be distorted or unclear. Adobe Photoshop: Professional-level image-processing software with extremely powerful filter and colorcorrection tools. It offers features for photography, graphic design, web design, and video. Adobe Photoshop Elements: A limited version of the Photoshop program, designed for the avid photographer. The Elements program lacks some of the more sophisticated controls available in Photoshop, but it does have a comprehensive range of imagemanipulation options, such as cropping, exposure and contrast controls, color correction, layers, adjustment layers, panoramic stitching, and more. AE: See automatic exposure. AF: See automatic focus. AI: Automatic Indexing. aliasing: Jagged edges or a "stair step" appearance that become visible, especially along diagonal lines, in digital images and graphic displays due to the shape of pixels. ambient light: See available light. analog: Information presented in continuous form. A traditional photographic print is an analog form, but when this same image is scanned and converted into digital form, it is made up of bits.

artificial light: Usually refers to any light source that doesn't exist in nature, such as incandescent, fluorescent, and other manufactured lighting. automatic exposure: When the camera measures light and makes the adjustments necessary to create proper image density on sensitized media. automatic flash: An electronic flash unit that reads light reflected off a subject (from either a preflash or the actual flash exposure), then shuts itself off as soon as ample light has reached the sensitized medium. automatic focus: When the camera automatically adjusts the lens elements to sharply render the subject. Av: Aperture Value. See Aperture-priority mode. available light: The amount of illumination at a given location that applies to natural and artificial light sources but not those supplied specifically for photography. It is also called existing light or ambient light. backlight: Light that projects toward the camera from behind the subject. bit depth: The number of bits per pixel that determines the number of colors the image can display. Eight bits per pixel is the minimum requirement for a photo-quality color image. bitmap: A computer-screen display made up of individual pixels. bounce light: Light that reflects off of another surface before illuminating the subject.

angle of view: The area seen by a lens, usually measured in degrees across the diagonal of the film frame.

bracketing: A sequence of pictures taken of the same subject but varying one or more exposure settings, manually or automatically, between each exposure.

anti-aliasing: A technique that reduces or eliminates the jagged appearance of lines or edges in an image.

brightness: A subjective measure of illumination. See also, luminance.

aperture: The opening in the lens that allows light to enter the camera. Aperture is usually described as an f/number. The higher the f/number, the smaller the aperture; and the lower the f/number, the larger the aperture.

buffer: Temporarily stores data so that other programs, on the camera or the computer, can continue to run while data is in transition.

Aperture-priority mode: A type of automatic exposure in which you manually select the aperture and the camera automatically selects the shutter speed. artifact: Information that is not part of the scene but appears in the image due to technology. Artifacts can occur in film or digital images and include increased grain, flare, static marks, color flaws, noise, etc.

152 glossary

built-in flash: A flash that is permanently attached to the camera body. The built-in flash will pop up and fire in low-light situations when using the camera's automated exposure settings. built-in meter: A light-measuring device that is incorporated into the camera body. byte: A single group of eight bits that is processed as one unit. See also, bit.

card reader: Device that connects to your computer and enables quick and easy download of images from memory card to computer. CCD: Charge Coupled Device. This is a common digital camera sensor type that is sensitized by applying an electrical charge to the sensor prior to its exposure to light. It converts light energy into an electrical impulse. chromatic aberration: Occurs when light rays of different colors are focused on different planes, causing colored halos around objects in the image. chrominance: A component of an image that expresses the color (hue and saturation) information, as opposed to the luminance (lightness) values. chrominance noise: A form of artifact that appears as a random scattering of densely packed colored " grain." See also, luminance and noise. close-up: A general term used to describe an image created by closely focusing on a subject. Often involves the use of special lenses or extension tubes. Also, an automated exposure setting that automatically selects a large aperture (not available with all cameras). CMOS: Complementary Metal Oxide Semiconductor. Like CCD sensors, this sensor type converts light into an electrical impulse. CMOS sensors are similar to CCDs, but allow individual processing of pixels, are less expensive to produce, and use less power. See also, CCD. CMYK mode: Cyan, magenta, yellow, and black. This mode is typically used in image-processing applications when preparing an image for printing. color balance: The average overall color in a reproduced image. How a digital camera interprets the color of light in a scene so that white or neutral gray appear neutral. color cast: A colored hue over the image often caused by improper lighting or incorrect white balance settings. Can be produced intentionally for creative effect. color depth: See bit depth. color space: A mapped relationship between colors and computer data about the colors. CompactFlash (CF) card: One of the most widely used removable memory cards. compression: A method of reducing file size through removal of redundant data, as with the JPEG file format.

contrast: The difference between two or more tones in terms of luminance, density, or darkness. critical focus: The most sharply focused plane within an image. cropping: The process of extracting a portion of the image area. If this portion of the image is enlarged, resolution is subsequently lowered. dedicated flash: An electronic flash unit that talks with the camera, communicating things such as flash illumination, lens focal length, subject distance, and sometimes flash status. default: Refers to various factory-set attributes or features, in this case of a camera, that can be changed by the user but can, as desired, be reset to the original factory settings. depth of field: The image space in front of and behind the plane of focus that appears acceptably sharp in the photograph. diaphragm: A mechanism that determines the size of the lens opening that allows light to pass into the camera when taking a photo. digital zoom: The cropping of the image at the sensor to create the effect of a telephoto zoom lens. The camera interpolates the image to the original resolution. However, the result is not as sharp as an image created with an optical zoom lens because the cropping of the image reduced the available sensor resolution. diopter: A measurement of the refractive power of a lens. Also, it may be a supplementary lens that is defined by its focal length and power of magnification. download: The transfer of data from one device to another, such as from camera to computer or computer to printer. dpi: Dots per inch. Used to define the resolution of a printer, this term refers to the number of dots of ink that a printer can lay down in an inch. DVD: Digital Video Disc. These discs store more information that CDs. electronic flash: A device with a glass or plastic tube filled with gas that, when electrified, creates an intense flash of light. Also called a strobe. Unlike a flash bulb, it is reusable. EV: Exposure value. A number that quantifies the amount of light within an scene, allowing you to determine the relative combinations of aperture and shutter speed to accurately reproduce the light levels of that exposure.

complete guide to digital infrared photography 153

EXIF: Exchangeable Image File Format. This format is used for storing an image file's interchange information. exposure: When light enters the camera and reacts with the sensitized medium. The term can also refer to the amount of light that strikes the light sensitive medium. exposure meter: See light meter. file format: The form in which digital images are stored and recorded, e.g., JPEG, RAW, TIFF, etc. filter: Usually a piece of plastic or glass used to control how certain wavelengths of light are recorded. A filter absorbs selected wavelengths, preventing them from reaching the light sensitive medium. Also, software available in image-processing computer programs can produce special filter effects. FireWire: A high speed data transfer standard that allows outlying accessories to be plugged and unplugged from the computer while it is turned on. Some digital cameras and card readers use FireWire to connect to the computer. FireWire transfers data faster than USB. firmware: Software that is permanently incorporated into a hardware chip. All computer-based equipment, including digital cameras, use firmware of some kind. flare: Unwanted light streaks or rings that appear in the viewfinder, on the recorded image, or both. It is caused by extraneous light entering the camera during shooting. Diffuse flare is uniformly reflected light that can lower the contrast of the image. Zoom lenses are susceptible to flare because they are comprised of many elements. Filters can also increase flare. Use of a lens hood can often reduce this undesirable effect. f/number: See f/stop. focal length: When the lens is focused on infinity, it is the distance from the optical center of the lens to the focal plane. focal plane: The plane on which a lens forms a sharp image. Also, it may be the film plane or sensor plane. focus: An optimum sharpness or image clarity that occurs when a lens creates a sharp image by converging light rays to specific points at the focal plane. The word also refers to the act of adjusting the lens to achieve optimal image sharpness. f/stop: The size of the aperture or diaphragm opening of a lens, also referred to as f/number or stop. The term stands for the ratio of the focal length (f) of the lens to the width of its aperture opening. (f/1.4 =

154 glossary

wide opening and f/22 = narrow opening.) Each stop up (lower f/number) doubles the amount of light reaching the sensitized medium. Each stop down ( higher f/number) halves the amount of light reaching the sensitized medium. full-frame: The maximum area covered by the sensitized medium. full-sized sensor: A sensor in a digital camera that has the same dimensions as a 35mm film frame (24 x 36 mm). gamma: A measurement of the contrast that affects midtones in an image. Gamma settings differ between operating systems for Macintosh (1.8 setting) and Windows (2.2). gamut: The full range of colors that a printer, monitor, or other computer peripheral can accurately reproduce. Different devices have different gamuts, requiring the need for color management systems to provide consistency between them. GB: See gigabyte. gigabyte: Just over one billion bytes. gray card: A card used to take accurate exposure readings. It typically has a white side that reflects 90% of the light and a gray side that reflects 18%. gray scale: A successive series of tones ranging between black and white, which have no color. hard drive: A contained storage unit made up of magnetically sensitive disks. histogram: A graphic representation of image tones. hot shoe. An electronically connected flash mount on the camera body. It enables direct connection between the camera and an external flash, and synchronizes the shutter release with the firing of the flash. ICC: The International Color Consortium, a group of eight large manufacturers in the computer and digital imaging industries. The consortium works to a dvance a common foundation for cross-platform color communication and has established base-level standards and protocols in the form of ICC Profile Format specifications. image-editing program: See image-processing program. image-processing program: Software that allows for image alteration and enhancement.

interpolation: A process used to increase image resolution by creating new pixels based on existing pixels. The software intelligently looks at existing pixels and creates new pixels to fill the gaps and achieve a higher resolution. IS. Image Stabilization: A technology that reduces camera shake and vibration. ISO: A term for industry standards from the International Organization for Standardization. When an ISO number is applied to film, it indicates the relative light sensitivity of the recording medium. Digital sensors use film ISO equivalents, which are based on enhancing the data stream or boosting the signal. JPEG: Joint Photographic Experts Group. A lossy compression file format that works with any computer and photo software. JPEG examines an image for redundant information and then removes it. It is a variable compression format because the amount of leftover data depends on the detail in the photo and the amount of compression. At low compression/high quality, the loss of data has a negligible effect on the photo. However, JPEG should not be used as a working format—the file should be reopened and saved in a format such as TIFF, which does not compress the image.

low-pass filter: A filter designed to remove elements of an image that correspond to high-frequency data, such as sharp edges and fine detail, to reduce the effect of moire. See also, moire. luminance: A term used to describe directional brightness. It can also be used as luminance noise, which is a form of noise that appears as a sprinkling of black "grain." See also, brightness, chrominance, and noise. macro lens: A lens designed to be at top sharpness over a flat field when focused at close distances and reproduction ratios up to 1:1. main light: The primary or dominant light source. It influences texture, volume, and shadows. Manual exposure mode: A camera operating mode that requires the user to determine and set both the aperture and shutter speed. This is the opposite of automatic exposure. mask: A method in image-processing programs to protect all or parts of an image from enhancement. Cutouts or openings in the mask allow unmasked portions of the image to be accessible for manipulation. MB: See megabyte.

KB: See kilobyte.

megabit: One million bits of data. See also, bit.

kilobyte: Just over one thousand bytes.

megabyte: Just over one million bytes.

layer: A tool in image-processing programs that creates separate versions of an image, each of which can be manipulated independently. The separate layers can then be used to form a composite image.

megapixel: A million pixels.

LCD: Liquid Crystal Display. A flat screen with two clear polarizing sheets on either side of a liquid crystal solution. When activated by an electric current, the LCD causes the crystals to either pass through or block light in order to create a colored image display.

memory card: A solid state removable storage medium used in digital devices. It can store still images, moving images, or sound, as well as related file data. There are several different types, including CompactFlash, SmartMedia, and xD, or Sony's proprietary Memory Stick, to name a few. Individual card capacity is limited by available storage as well as by the size of the recorded data (determined by factors such as image resolution and file format). See also, CompactFlash ( CF) card, file format.

lens: A piece of optical glass on the front of a camera that has been precisely calibrated to allow focus. lens hood: Also called a lens shade, it is a short tube that can be attached to the front of a lens to reduce flare. It keeps undesirable light from reaching the front of the lens and also protects the front of the lens. light meter: Also called an exposure meter, it is a device that measures light levels and calculates the correct aperture and shutter speed. lossless: Image compression in which no data is lost. lossy: Image compression in which data is lost and, thereby, image quality is lessened. This means that the greater the compression, the lesser the image quality.

memory: The storage capacity of a hard drive or other recording media.

menu: A listing of features, functions, or options displayed on a screen that can be selected and activated by the user. microdrive: A removable storage medium with moving parts. They are miniature hard drives based on the dimensions of a CompactFlash Type II card. Microdrives are more susceptible to the effects of impact, high altitude, and low temperature than solidstate cards are. See also, memory card.

complete guide to digital infrared photography 155

midtone: The tone that appears as medium brightness, or medium gray tone, in a photographic print.

RAW+JPEG: An image file format that records two files per capture; one RAW file and one JPEG file.

moire: Moire appears as a wavy pattern over the image and occurs when the subject has more detail than the resolution of the digital camera can capture.

resolution: The amount of data available for an image as applied to image size. It is expressed in pixels or megapixels, or sometimes as lines per inch on a monitor or dots per inch on a printed image.

noise: The digital equivalent of grain. It is often caused by a number of different factors, such as a high ISO setting, heat, sensor design, etc. Though usually undesirable, it may be added for creative effect using an image-processing program. See also, chrominance noise and luminance. normal lens: See standard lens. operating system (OS): The system software that provides the environment within which all other software operates. overexposed: When too much light is recorded with the image, causing the photo to be too light in tone. perspective: The effect of the distance between the camera and image elements upon the perceived size of objects in an image. It is also an expression of this three-dimensional relationship in two dimensions. pixel: Derived from picture element. A pixel is the base component of a digital image. Every individual pixel can have a distinct color and tone. plug-in: Third-party software created to augment an existing software program. pre-flashes: A series of short duration, low intensity flash pulses emitted by a flash unit immediately prior to the shutter opening. These flashes help the TTL light meter assess the reflectivity of the subject. profile: A file that "describes" how a device (e.g. camera, monitor, printer) associates color information with specifications created by the International Color Consortium (ICC). Program mode: In Program exposure mode, the camera selects a combination of shutter speed and aperture automatically. RAM: Random Access Memory. A computer's memory capacity, directly accessible from the central processing unit. RAW: An image file format that has little or no internal processing applied by the camera. It contains 12bit color information, a wider range of data than 8-bit formats such as JPEG.

156 glossary

RGB mode: Red, Green, and Blue. This is the color model most commonly used to display color images on video systems, film recorders, and computer monitors. It displays all visible colors as combinations of red, green, and blue. RGB mode is the most common color mode for viewing and working with digital files onscreen. saturation: The degree to which a color of fixed tone varies from the neutral, grey tone; low saturation produces pastel shades whereas high saturation gives pure color. sharp: A term used to describe the quality of an image as clear, crisp, and perfectly focused, as opposed to fuzzy, obscure, or unfocused. short lens: A lens with a short focal length—a wideangle lens. It produces a greater angle of view than you would see with your eyes. shutter: The apparatus that controls the amount of time during which light is allowed to reach the sensitized medium. Shutter-priority mode: An automatic exposure mode in which you manually select the shutter speed and the camera automatically selects the aperture. Single-lens reflex: See SLR. SLR: Single-lens reflex. A camera with a mirror that reflects the image entering the lens through a pentaprism or pentamirror onto the viewfinder screen. When you take the picture, the mirror reflexes out of the way, the focal plane shutter opens, and the image is recorded. small-format sensor: In a digital camera, this sensor is physically smaller than a 35mm frame of film. The result is that standard 35mm focal lengths act like longer lenses because the sensor sees an angle of view smaller than that of the lens. standard lens: Also known as a normal lens, this is a fixed-focal-length lens usually in the range of 45 to 55mm for 35mm format (or the equivalent range for smallformat sensors). In contrast to wide-angle or telephoto lenses, a standard lens views a realistically proportionate perspective of a scene.

stop down: To reduce the size of the diaphragm opening by using a higher f/number. stop up: To increase the size of the diaphragm opening by using a lower f/number. telephoto lens: A lens with a long focal length that enlarges the subject and produces a narrower angle of view than you would see with your eyes. thumbnail: A small representation of an image file used principally for identification purposes. TIFF. Tagged Image File Format. This popular digital format uses lossless compression. tripod: A three-legged stand that stabilizes the camera and eliminates camera shake caused by body movement or vibration. Tripods are usually adjustable for height and angle. TTL: Through-the-Lens, i.e. TTL metering. Tv: Time Value. See Shutter-priority mode. USB: Universal Serial Bus. This interface standard allows outlying accessories to be plugged and unplugged from the computer while it is turned on. USB 2.0 enables high-speed data transfer. vignetting: A reduction in light at the edge of an image due to use of a filter or an inappropriate lens hood for the particular lens. viewfinder screen: The ground glass surface on which you view your image. wide-angle lens: A lens that produces a greater angle of view than you would see with your eyes, often causing the image to appear stretched. See also, short lens. zoomlens: A lens that can be adjusted to cover a wide range of focal lengths.

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index A AboutDigicam 115, 150 Actions 84, 100-101, 117-120, 151 adapter ring 48, 58 Adjustment Layer 81-83, 98, 122, 123, 125 Adobe Photoshop 17, 26, 39, 80, 88, 91, 98, 100, 101, 122, 134 Adobe Photoshop Elements 80, 134 Adobe Studio Exchange 101, 117, 118, 119, 150 Alien Skin 111, 150 Andromeda 97, 150 aperture scale 32, 34, 36, 37, 48 artifact 64, 106, 107 Auto F/X 104, 151 B B+W 44, 50, 52, 53, 56, 57, 150 Bayer pattern 62, 63 black-and-white mode 22, 24, 35, 37, 46, 49, 58, 64, 66, 96 blur 37, 52, 102, 107, 109 bracketing 16, 36-37, 38 158 index

C C-41 122, 127 calibration (see monitor calibration) camera capability (see IR capability) camera conversion (see IR-converted camera) Camera RAW 26 Cathcart, Aaron 19, 31, 77, 148-149, 151 CCD sensor (see sensor, CCD) Channel Mixer 68-69, 81 Cheng, Eric 108-109, 151 chromatic aberration 31 cleaning filter 48 printer heads 143 sensor 21, 150 clipping 38 CMOS sensor (see sensor, CMOS) Cokin 20, 37, 40, 48, 50, 53, 54, 58, 96, 150 color channel 68-69, 72, 124, 125 color correction 46, 81, 134, 137 color IR images 66, 69, 116, 120

color temperature (see also white balance) 133 colorimeter 135 ColorVision 135, 137, 144, 151 compression 64, 105, 106, 107 converted camera (see IR-converted camera) Corel 80, 151 Craig's Actions 100, 120, 151 creative edges 102-104 cross processing 119, 122, 127 cut-off filter (see internal infrared cut-off filter) D depth of field 32, 35, 36, 48, 55 depth-of-field scale 32, 34 Dezember, Brody 28-29, 151 Digital GEM Professional 106 dpi (dots-per-inch) 131 drivers (see printer driver) duotone 88-90 E E-6 122, 127 Eastman Kodak Company 48, 50, 106, 150 electronic viewfinder (EVF) 35 Elements (see Adobe Photoshop Elements) exposure compensation 36, 39, 40, 42, 43, 47, 49, 94 exposure ( metering) 18, 30, 35, 36-39, 55, 62 Extensis 102-104, 151 external infrared (IR) filter (see filters, external infrared) F false color IR (see also faux IR) 24 faux IR (see also false color IR) 15, 17, 46, 111-127 file formats 24-26 filters external infrared 14, 16, 18, 20, 22, 23, 31, 32, 35, 46-60, 66 007 20, 37, 50 #25 48, 50, 54, 56 25A 16, 51 R72 47, 50, 51, 61, 68, 70, 74, 75, 84, 94, 128, 129 #87 19, 31, 50, 52, 54, 77, 149 #87C 50, 54 #88A 51 #89B 51 RM90 50, 51 092 50, 51, 52, 57 093 44, 51, 57 I-Ray 51, 54, 55, 59 gelatin 48, 53 glass 48, 49, 53, 54 square 48, 53, 54 Filter Gallery 91-92 flare 52 focal length 31, 34 focusing 18, 30-35, 43, 48

focusing index 32 focusing mark (see infrared focusing mark) Foveon (see sensors, Foveon) frames (see creative edges) G Gamma 134, 136 gelatin filters (see filters, gelatin) glass filters (see filters, glass) Grain Surgery 106 Gretag Macbeth 135, 151 grayscale (see also monochrome) 24, 66-69, 76, 87, 88, 98, 104, 146 H hand coloring 10, 98-99 Heliopan 49, 51, 52, 53, 150 histogram 36, 38-39, 42, 64, 83 hot mirror (see also internal infrared cut-off filter) 18, 20, 108 Hoya 47, 50, 51, 61, 68, 70, 75, 84, 94, 128, 129, 150 hyperfocal distance 32-34, 35, 43, 48 I ICC (see International Color Consortium) IIRC (see internal infrared cut-off filter) image processing software (programs) 24, 30, 39, 70, 76, 80, 91, 100, 102 infrared (IR) film 14, 17, 44, 78, 79, 94, 111, 112, 119, 122 infrared focusing mark 32, 48 infrared wavelengths/radiation 13-15, 20, 30, 31, 32, 36, 39-40, 43, 46, 48, 50, 55, 56 spectrum 15, 50, 51 inks 88, 126, 127, 130, 131, 132, 139, 142-143, 145, 146, 147 internal infrared cut-off filter (IIRC) (see also hot mirror) 18, 21, 22, 23, 34, 52, 55 International Color Consortium 135, 136, 137, 151 IR capability (of camera) 18, 20, 111 IR-converted camera 22-23, 24, 26, 35, 116, 150 ISO 18, 36, 37, 106, 107 J JPEG 24, 64, 106, 107 K Kelvin (see color temperature) Kodak Ektachrome 15, 16, 79, 188 Kodak Wratten Gelatin ® Filters 19, 31, 48, 50, 52, 56, 77, 108, 149 L layer mask 81 Layers 80-83, 84, 86, 87, 88, 99, 122, 123 LCD screen (monitor) 35, 36, 38, 39, 55, 57, 64 Lee 51, 53, 54, 150 lens hood 48, 52

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lenses 31, 32, 34, 48, 52, 53, 56, 59 light (see visible light) Linsao, Reggie 84, 128-129, 151 M Manual (M) exposure mode 35, 36, 39, 55 memory card 17, 24, 76, 116 micro piezo printing 131 modified camera (see IR-converted camera) modular filter system 48, 53-54 Monaco Systems 135, 136, 137, 151 monitor calibration 134, 136, 151 monochrome 26, 46, 66-73, 139, 142, 146 mounting ring (see also screw-mount) 48, 53, 56 N nanometer (nm) 15 near infrared (NIR) 15, 50, 51, 74, 108 Ngan, Danny 122, 126-127, 151 Nik Software 70, 71, 96, 97, 111-113, 127, 151 noise 36, 105 noise reduction 106-107 Noise Ninja 107 Noise Reduction Pro 106 Noiseware 107 Nuber, Paul 44-45, 151 0 Ott-Lite 133, 134, 151

P

Paint Shop Pro 80 paper (printing) 130-131, 132, 136, 139, 142-145, 146-147 Photolmpact 80 Photoshop (see Adobe Photoshop) Picasa 80 Pixel Genius 87, 151 pixels 61, 106 plug-ins 70-72, 84-88, 106-107, 111-115, 127 Power Retouche 72-73, 151 printer driver 130, 137-139, 142-144, 145, 146, 147 printer heads 131, 143 printing 130-147 profile (profiling) 134, 136-137, 146 pseudo color IR (see false color IR) R RAW 24, 26, 98, 140 reflectance (reflectivity) 30, 43, 57, 66, 114 remote control test 21-22 resolution image 64, 131, 145 printer 131, 132 scanner 78 retrofitted camera (see IR-converted camera) RGB 46, 62, 88, 98, 136

160 index

S Sabattier Effect 97 Sammon, Rick 8, 13, 140-141, 151 scanning 78-79, 106, 107, 136, 137, 151 Schneider Optics (see B+W) Schofield, Carl 74-75, 131, 151 screw-mount filters 49 sensor, imaging 9, 15, 18, 21, 34, 46, 48, 52, 55, 57, 62-63, 66, 105 CCD 18, 63 CMOS 18, 63 Foveon 63 Super CCD SR II 63 Silver Oxide 114, 151 SilverFast 78, 151 Singh Ray 51, 54, 55, 150 solarization 96, 97 T Talbert, Chip 60-61, 151 test prints 134, 13, 145-146 TIFF 24, 26, 64, 66, 70, 99, 145 Tiffen 51, 52, 54, 108, 150 tripod 22, 35, 55, 108 toning 30, 86-90 transmission rates 46, 50-51 tritone 88, 90 U Ulead 80, 151 ultraviolet 15, 17, 51 UV (see filters, UV) V visible light 9, 14, 15, 18, 22, 31, 46, 48, 50, 51, 54, 56, 57, 60, 108 spectrum 51 W white balance 23, 26, 83, 128 Williams, Robert 94-95, 151 woodcut effect 97 Wratten system 48 Z Zone System 38